! *** OPTICS=AD_ACCEL_HE-12FEB24 *** ! LCLS-II-HE linacs: L0, L1, L2, L3, L4, L0LEI ! ============================================================================== ! Modification History ! ------------------------------------------------------------------------------ ! 17-SEP-2023, M. Woodley ! * relocate endpoints of L0B, L1B, L2B, L3B, and L4B; move MSC's there; add ! vacuum valves (VV's) there as INST's per S. Saraf ! * add VV (INST) at end of EXT ... move ENDEXT to VV ! * add additional vacuum components (pumps and gauges) per D. White ! ------------------------------------------------------------------------------ ! 12-MAR-2023, M. Woodley ! * "SLOT36" renamed "BR3B" ! * BR3B and EXT vacuum component locations per D. White ! 01-SEP-2022, M. Woodley ! * add MARKERs at locatiions of Vertical Transfer Lines (VTL) per S. Kaminski ! * prepend "cryo " to TYPE attribute for cryomodule quadrupoles per K. Luchini ! ------------------------------------------------------------------------------ ! 26-JUN-2022, Y. Nosochkov ! * update KQCM00 for 9.25 m LEI and LCLS-II separation ! ------------------------------------------------------------------------------ ! 07-DEC-2021, M. Woodley ! * adjust lengths of L4 upstream feedcap and MSC per V. Heloin ! 09-NOV-2021, M. Woodley ! * modified L3/L4 transition per F. Garcia ... remove CDS "tee" ! * set LCAV TYPE attributes to cryomodule designations ! * set QUAD TYPE attributes to cryomodule magnet package designations ! 21-OCT-2021, M. Woodley ! * create "_full" definitions for 1.3 GHz and 3.9 GHz cavities to allow Bmad ! to use field maps (L= 1.3 m for 1.3 GHz; L= 0.44 m for 3.9 GHz) ! ------------------------------------------------------------------------------ ! 19-APR-2021, M. Woodley ! * CM00 energy gains and phases per C. Mayes ! 26-MAR-2021, Y. Nosochkov ! * rematch QCM00 for shorter LEI dogleg matching section ! 15-MAR-2021, Y. Nosochkov ! * set DCAP0d2 to 1.72438 (per M. Woodley) ! 13-MAR-2021, Y. Nosochkov ! * rematch KQCM00 for shorter matching section u/s of LEI dogleg ! 09-MAR-2021, M. Woodley ! * add CM00 (LEI beamline) ! 13-FEB-2021, M. Woodley ! * add vacuum components in SLOT36 per R. Coy ! ------------------------------------------------------------------------------ ! 11-SEP-2020, M. Woodley ! * add 3 HE CM's (for a total of 58 1.3 GHz CM's) ! * move L3-L4 split to slot #32 ... rename SLOT29 to SLOT36 ! * move L4 vacuum break to between CM45 and CM46 ! * remove 3 EXT quads ! 31-AUG-2020, M. Woodley ! * change QX01, QX02, and QX03 to 1.085Q4.31 ("QE") per R. Coy ! ------------------------------------------------------------------------------ ! 27-AUG-2020, M. Woodley ! * add unsplit 1.3 GHz cavity #5 and 3.9 Ghz cavity #2 definitions for BMAD ! ------------------------------------------------------------------------------ ! 16-JUN-2020, M. Woodley ! * rename CM's based on "slot number" (no CM29) ! * make DNOLEX into a LINE and an area (SLOT29) ! 09-JAN-2020, M. Woodley ! * new baseline (no LEX) ! ------------------------------------------------------------------------------ ! 03-JUL-2019, M. Woodley ! * extend LEX by 12.22039 m (1 CM slot-length) + 2.183332 m (to put CM29 and ! CM30 waveguides at their LCLS-II baseline locations) ! ------------------------------------------------------------------------------ ! 08-AUG-2017, M. Woodley ! * L0 gradients and phases from 100 pC ASTRA run, per C. Mayes ! * L3 has 13 CMs: CM16-CM25/break/CM26-CM28 ! * L4 has 27 CMs: CM29-CM42/break/CM43-CM55 ! * gradient of L2 and L3 = 18 MV/m (includes 3% overhead) ! * gradient of L4a (CM29-CM35) = 18 MV/m (includes 3% overhead) ! * gradient of L4b (CM36-CM55) = 20.8 MV/m (includes 6% overhead) ! * phase of L3 and L4 = 5 degrees off-crest ! * energy at BC2 = 1.87 GeV; energy at L3EXT = 3.74 GeV; final energy = 8 GeV ! ------------------------------------------------------------------------------ ! 04-JUL-2017, M. Woodley ! * L3 has 14 CMs: CM16-CM25/break/CM26-CM29 ! * L4 has 26 CMs: CM30-CM42/break/CM43-CM55 ! * gradient of L2 and L3 = 18 MV/m (includes 6% overhead) ! * gradient of L4a (CM30-CM35) = 18 MV/m (includes 6% overhead) ! * gradient of L4b (CM36-CM55) = 21.7 MV/m (includes 6% overhead) ! * phase of L3 and L4 = 5 degrees off-crest ! * energy at BC2 = 1.8 GeV; energy at L3EXT = 3.8 GeV; final energy = 8 GeV ! 01-JUL-2016, M. Woodley ! * LCLS-II-HE ! * new L3-L4 connector section (includes extraction) ! * new extraction to PEP-II e+ bypass (SIT) line ! ------------------------------------------------------------------------------ ! 04-NOV-2016, M. Woodley ! * change cryo-quadrupole effective length from 0.29 m to 0.23 m ! * change CM03-to-CMH1 interconnect dimensions per A. Dalesandro (FNAL) ! * change from gate valve flange face callouts to mating surface callouts for ! 1.3 GHz cryomodules ! * add beamline flanges ! ------------------------------------------------------------------------------ ! 06-JUN-2016, M. Woodley ! * move 1.3 GHz HOMs d/s 27.19 mm per Yun He (FNAL) ... maintain slot length ! 26-MAY-2016, M. Woodley ! * 3.9 GHz layout update (18-May-2016) per Yun He (FNAL) ! * put HOMs ("Beam Line Absorbers") back at the d/s end of L0, L2, and L3 per ! C. Adolphsen email of 20-May-2016 ! 11-MAY-2016, M. Woodley ! * set L0 d/s MSC length to 1.829 m; locations of vacuum components (V*0H00) ! per H.Alvarez ! 28-APR-2016, M. Woodley ! * post-to-cap dimensions from SD-375-000-99-R2 ! 22-APR-2016, M. Woodley ! * add 1.1 mm to CM03-CMH1 interconnect ! * add 3.47 mm to CMH1-CMH2 interconnect ! * 3.9 GHz CM cold dimensions per Y. He (20-Apr-2016) ! 28-MAR-2016, M. Woodley ! * add end cap and feed cap MARKers ! ------------------------------------------------------------------------------ ! 14-MAR-2016, M. Woodley ! * 3.9 GHz layout update per Yun He (FNAL) ! 02-FEB-2016, M. Woodley ! * new 1.3 GHz layout per T. Peterson/J. Kaluzny (FNAL) [19-Nov-2015] ! * new 3.9 GHz layout per T. Peterson (FNAL) [02-Dec-2015] ! * feed cap, end cap, and stay-clear dimensions from drawing SD-375-000-99-R1 ! * remove last HOM in each linac section (L0/L1/L2/L3) ! * adjust Differential Pumping Stay-Clears to restore locations of ! LH/BC1/BC2/dogleg ! * split 1.3 GHz cavity #5's to insert MARKer for center post ! * remove BPM1C00/RFB1C00 (now that there are BPMs in the 3.9 GHz cryomodules) ! 01-FEB-2016, M. Woodley ! * new 100 pC input beams from J. Qiang/C. Mitchell ! 01-NOV-2015, M. Woodley ! * new 100 pC input beam from F. Zhou (Twiss from P. Emma) ! ------------------------------------------------------------------------------ ! 01-OCT-2015, M. Woodley ! * add vacuum components and fixed-aperture collimator in L0 downstream ! mechanical-stay-clear space ! * fix negative D2C00a drift length error by shortening DPSC2D drift ! * add BEAM0 MARKer ! ------------------------------------------------------------------------------ ! 19-JUN-2015, M. Woodley ! * lengthen special L0 u/s end cap, per H.Alvarez ... moves gun u/s ! * move ASTRA point to dZ=15.0 m from gun (temporarily) ! * use QCM01 for matching ! * undefer BPM1C00 ! ------------------------------------------------------------------------------ ! 20-MAR-2015, M. Woodley ! * add APER definition for cryo-quads ! ------------------------------------------------------------------------------ ! 12-DEC-2014, M. Woodley ! * new FNAL 1.3 GHz cryomodule layout (F10010875) per M. Carrasco ! * new end cap and mechanical stay-clear dimensions per H. Alvarez ! * because mechanical stay-clear spaces got ~0.5 m longer, shorten ! differential pumping spaces from 3.0 m to ~2.5 m to keep cryomodules in ! previous Z-locations (checked with D. Gill) ! * keep previous L3 vacuum break length (not designed yet) ! * replace RFB1C00 (defer=2) with BPM1C00 (defer=0) ! ------------------------------------------------------------------------------ ! 15-OCT-2014, M. Woodley ! * new FNAL 3.9 GHz cryomodule layout (F10014857) via M. Carrasco ... assume ! save interconnect and d/s end cap dimensions as 1.3 GHz cryomodule ! * add 3.0 m differential pumping stay-clear after L0 ! * add RFB0H00 between L0 mechanical stay-clear and differential pumping ! stay-clear ! * adjust deferment/deprecation levels ! ------------------------------------------------------------------------------ ! 07-AUG-2014, M. Woodley ! * new cryomodule layout per FNAL folks via H. Alvarez ! * L1 phase advance per FODO cell lowered to 45 degrees ! * cryomodule BPMs will be button-type ... rename RFB* -> BPM* ! * shorten 3.9 GHz CMs and remove QUAD/BPM/corrector packages ! ------------------------------------------------------------------------------ ! 25-APR-2014, M. Woodley ! * new cryomodule layout per FNAL folks via H. Alvarez ! * add HOM absorber MARKERs (HOMCM*) ! ------------------------------------------------------------------------------ ! 27-MAR-2014, M. Woodley ! * all cryomodules now have standard Q/XC/YC/BPM package ! * remove COUPLER MARKer points ! * add CM34/CM35 energy feedback phase "kink" ! * element names changed to conform to nomenclature PRD ! ------------------------------------------------------------------------------ ! 19-FEB-2014, M. Woodley ! * updated cryomodule layout ! * 3.9 GHz linearizer is now 2 standard cryostats with 8 cavities each ! ------------------------------------------------------------------------------ ! 07-JAN-2014, M. Woodley ! Energy profile (CM01 amplitudes and phases) per P. Emma (20-DEC-2013) ! ------------------------------------------------------------------------------ ! 30-OCT-2013, M. Woodley ! LCLS2sc v1.2 ! ------------------------------------------------------------------------------ ! ============================================================================== ! LCAV ! ------------------------------------------------------------------------------ ! CM01 (L0), CM02 (L1), and CM03 (L1) cavities have individual power sources ! ------------------------------------------------------------------------------ Lambda := CLIGHT/1.3E+09 !1.3 GHz wavelength LcavL := 9*Lambda/2 !1.3 GHz cavity active length LcavR := 70e-3/2 !1.3 GHz cavity iris radius CcavL := LcavL/3 !3.9 GHz cavity active length CcavR := 30e-3/2 !3.9 GHz cavity iris radius Lcav52cp := 0.14035 !cavity #5 center to support post LcavLa := LcavL/2+Lcav52cp !cavity #5 length u/s of support post LcavLb := LcavL-LcavLa !cavity #5 length d/s of support post Ccav22cp := 0.11262 !support post to cavity #2 center CcavLa := CcavL/2-Ccav22cp !cavity #2 length u/s of support post CcavLb := CcavL-CcavLa !cavity #2 length d/s of support post GradL1 := 11.666535154663 !MeV/m [11.1] PhasL1 := -19.2 !degrees GHcav := 9.053035 !MeV/m PHcav := -148.97 !degrees FracL2 := 0.969420853337 !100*(1-FracL2)= L2 overhead (%) GradL2 := 16.0*FracL2 !MeV/m PhasL2 := -20.75 !degrees FracL3 := FracL2 !100*(1-FracL3)= L3 overhead (%) GradL3 := 16.0*FracL3 !MeV/m PhasL3 := 0.0 !degrees FracL4 := 0.9440948704722 !100*(1-FracL4)= L4 overhead (%) GradL4 := 20.8*FracL4 !MeV/m PhasL4 := 0.0 !degrees COMMENT LactL2 := 12*8*LcavL LactL3 := 20*8*LcavL LactL4 := 23*8*LcavL VALUE, GradL2,GradL2/FracL2,100*(1-FracL2),PhasL2,LactL2 VALUE, GradL3,GradL3/FracL3,100*(1-FracL3),PhasL3,LactL3 VALUE, GradL4,GradL4/FracL4,100*(1-FracL4),PhasL4,LactL4 VALUE, E1+1.0E-3*GradL2*LactL2*COS(RADDEG*PhasL2),E2 VALUE, E2+1.0E-3*GradL3*LactL3*COS(RADDEG*PhasL3),E3 VALUE, E3+1.0E-3*GradL4*LactL4*COS(RADDEG*PhasL4),Ef STOP ENDCOMMENT ! L0 (new settings from reference 100 pC Astra run July 2017 per C. Mayes) ! Maximum E_z in MV/m from Astra optimization L011_scale := 15.8 L012_scale := 0 ! off L013_scale := 0 ! off L014_scale := 28 L015_scale := 32 L016_scale := 32 L017_scale := 32 L018_scale := 32 ! Phases (deg) P011 := -4.0 P012 := 0 P013 := 0 P014 := 0 P015 := 0 P016 := 0 P017 := 1.25 P018 := 6.0 ! Fix scaling to end up with final injection energy Ei: L0_factor1 := L011_scale*COS(RADDEG*P011)+ & L012_scale*COS(RADDEG*P012)+ & L013_scale*COS(RADDEG*P013)+ & L014_scale*COS(RADDEG*P014) L0_factor2 := L015_scale*COS(RADDEG*P015)+ & L016_scale*COS(RADDEG*P016)+ & L017_scale*COS(RADDEG*P017)+ & L018_scale*COS(RADDEG*P018) L0_scale := 1.0E3*(Ei-E0)/(L0_factor1+L0_factor2)/LcavL G011 := L011_scale*L0_scale G012 := L012_scale*L0_scale G013 := L013_scale*L0_scale G014 := L014_scale*L0_scale G015 := L015_scale*L0_scale G016 := L016_scale*L0_scale G017 := L017_scale*L0_scale G018 := L018_scale*L0_scale CAVL011 : LCAV, TYPE="F1.3-19", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G011*LcavL, PHI0=P011/360 CAVL012 : LCAV, TYPE="F1.3-19", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G012*LcavL, PHI0=P012/360 CAVL013 : LCAV, TYPE="F1.3-19", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G013*LcavL, PHI0=P013/360 CAVL014 : LCAV, TYPE="F1.3-19", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G014*LcavL, PHI0=P014/360 CAVL015a : LCAV, TYPE="F1.3-19", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=G015*LcavLa, PHI0=P015/360 CAVL015b : LCAV, TYPE="F1.3-19", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=G015*LcavLb, PHI0=P015/360 CAVL016 : LCAV, TYPE="F1.3-19", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G016*LcavL, PHI0=P016/360 CAVL017 : LCAV, TYPE="F1.3-19", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G017*LcavL, PHI0=P017/360 CAVL018 : LCAV, TYPE="F1.3-19", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G018*LcavL, PHI0=P018/360 ! L1 (1.3 GHz) G021 := GradL1 ; P021 := PhasL1 G022 := GradL1 ; P022 := PhasL1 G023 := GradL1 ; P023 := PhasL1 G024 := GradL1 ; P024 := PhasL1 G025 := GradL1 ; P025 := PhasL1 G026 := GradL1 ; P026 := PhasL1 G027 := GradL1 ; P027 := PhasL1 G028 := GradL1 ; P028 := PhasL1 CAVL021 : LCAV, TYPE="J1.3-21", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G021*LcavL, PHI0=P021/360 CAVL022 : LCAV, TYPE="J1.3-21", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G022*LcavL, PHI0=P022/360 CAVL023 : LCAV, TYPE="J1.3-21", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G023*LcavL, PHI0=P023/360 CAVL024 : LCAV, TYPE="J1.3-21", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G024*LcavL, PHI0=P024/360 CAVL025a : LCAV, TYPE="J1.3-21", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=G025*LcavLa, PHI0=P025/360 CAVL025b : LCAV, TYPE="J1.3-21", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=G025*LcavLb, PHI0=P025/360 CAVL026 : LCAV, TYPE="J1.3-21", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G026*LcavL, PHI0=P026/360 CAVL027 : LCAV, TYPE="J1.3-21", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G027*LcavL, PHI0=P027/360 CAVL028 : LCAV, TYPE="J1.3-21", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G028*LcavL, PHI0=P028/360 G031 := GradL1 ; P031 := PhasL1 G032 := GradL1 ; P032 := PhasL1 G033 := GradL1 ; P033 := PhasL1 G034 := GradL1 ; P034 := PhasL1 G035 := GradL1 ; P035 := PhasL1 G036 := GradL1 ; P036 := PhasL1 G037 := GradL1 ; P037 := PhasL1 G038 := GradL1 ; P038 := PhasL1 CAVL031 : LCAV, TYPE="J1.3-20", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G031*LcavL, PHI0=P031/360 CAVL032 : LCAV, TYPE="J1.3-20", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G032*LcavL, PHI0=P032/360 CAVL033 : LCAV, TYPE="J1.3-20", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G033*LcavL, PHI0=P033/360 CAVL034 : LCAV, TYPE="J1.3-20", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G034*LcavL, PHI0=P034/360 CAVL035a : LCAV, TYPE="J1.3-20", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=G035*LcavLa, PHI0=P035/360 CAVL035b : LCAV, TYPE="J1.3-20", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=G035*LcavLb, PHI0=P035/360 CAVL036 : LCAV, TYPE="J1.3-20", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G036*LcavL, PHI0=P036/360 CAVL037 : LCAV, TYPE="J1.3-20", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G037*LcavL, PHI0=P037/360 CAVL038 : LCAV, TYPE="J1.3-20", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G038*LcavL, PHI0=P038/360 ! L1 (3.9 GHz) CAVC011 : LCAV, TYPE="F3.9-01", FREQ=3900, APER=CcavR, L=CcavL, & DELTAE=GHcav*CcavL, PHI0=PHcav/360 CAVC012a : LCAV, TYPE="F3.9-01", FREQ=3900, APER=CcavR, L=CcavLa, & DELTAE=GHcav*CcavLa, PHI0=PHcav/360 CAVC012b : LCAV, TYPE="F3.9-01", FREQ=3900, APER=CcavR, L=CcavLb, & DELTAE=GHcav*CcavLb, PHI0=PHcav/360 CAVC013 : LCAV, TYPE="F3.9-01", FREQ=3900, APER=CcavR, L=CcavL, & DELTAE=GHcav*CcavL, PHI0=PHcav/360 CAVC014 : LCAV, TYPE="F3.9-01", FREQ=3900, APER=CcavR, L=CcavL, & DELTAE=GHcav*CcavL, PHI0=PHcav/360 CAVC015 : LCAV, TYPE="F3.9-01", FREQ=3900, APER=CcavR, L=CcavL, & DELTAE=GHcav*CcavL, PHI0=PHcav/360 CAVC016 : LCAV, TYPE="F3.9-01", FREQ=3900, APER=CcavR, L=CcavL, & DELTAE=GHcav*CcavL, PHI0=PHcav/360 CAVC017 : LCAV, TYPE="F3.9-01", FREQ=3900, APER=CcavR, L=CcavL, & DELTAE=GHcav*CcavL, PHI0=PHcav/360 CAVC018 : LCAV, TYPE="F3.9-01", FREQ=3900, APER=CcavR, L=CcavL, & DELTAE=GHcav*CcavL, PHI0=PHcav/360 CAVC021 : LCAV, TYPE="F3.9-02", FREQ=3900, APER=CcavR, L=CcavL, & DELTAE=GHcav*CcavL, PHI0=PHcav/360 CAVC022a : LCAV, TYPE="F3.9-02", FREQ=3900, APER=CcavR, L=CcavLa, & DELTAE=GHcav*CcavLa, PHI0=PHcav/360 CAVC022b : LCAV, TYPE="F3.9-02", FREQ=3900, APER=CcavR, L=CcavLb, & DELTAE=GHcav*CcavLb, PHI0=PHcav/360 CAVC023 : LCAV, TYPE="F3.9-02", FREQ=3900, APER=CcavR, L=CcavL, & DELTAE=GHcav*CcavL, PHI0=PHcav/360 CAVC024 : LCAV, TYPE="F3.9-02", FREQ=3900, APER=CcavR, L=CcavL, & DELTAE=GHcav*CcavL, PHI0=PHcav/360 CAVC025 : LCAV, TYPE="F3.9-02", FREQ=3900, APER=CcavR, L=CcavL, & DELTAE=GHcav*CcavL, PHI0=PHcav/360 CAVC026 : LCAV, TYPE="F3.9-02", FREQ=3900, APER=CcavR, L=CcavL, & DELTAE=GHcav*CcavL, PHI0=PHcav/360 CAVC027 : LCAV, TYPE="F3.9-02", FREQ=3900, APER=CcavR, L=CcavL, & DELTAE=GHcav*CcavL, PHI0=PHcav/360 CAVC028 : LCAV, TYPE="F3.9-02", FREQ=3900, APER=CcavR, L=CcavL, & DELTAE=GHcav*CcavL, PHI0=PHcav/360 ! L2 CAVL041 : LCAV, TYPE="F1.3-07", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL042 : LCAV, TYPE="F1.3-07", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL043 : LCAV, TYPE="F1.3-07", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL044 : LCAV, TYPE="F1.3-07", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL045a : LCAV, TYPE="F1.3-07", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL2*LcavLa, PHI0=PhasL2/360 CAVL045b : LCAV, TYPE="F1.3-07", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL2*LcavLb, PHI0=PhasL2/360 CAVL046 : LCAV, TYPE="F1.3-07", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL047 : LCAV, TYPE="F1.3-07", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL048 : LCAV, TYPE="F1.3-07", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL051 : LCAV, TYPE="J1.3-04", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL052 : LCAV, TYPE="J1.3-04", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL053 : LCAV, TYPE="J1.3-04", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL054 : LCAV, TYPE="J1.3-04", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL055a : LCAV, TYPE="J1.3-04", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL2*LcavLa, PHI0=PhasL2/360 CAVL055b : LCAV, TYPE="J1.3-04", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL2*LcavLb, PHI0=PhasL2/360 CAVL056 : LCAV, TYPE="J1.3-04", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL057 : LCAV, TYPE="J1.3-04", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL058 : LCAV, TYPE="J1.3-04", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL061 : LCAV, TYPE="F1.3-08", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL062 : LCAV, TYPE="F1.3-08", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL063 : LCAV, TYPE="F1.3-08", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL064 : LCAV, TYPE="F1.3-08", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL065a : LCAV, TYPE="F1.3-08", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL2*LcavLa, PHI0=PhasL2/360 CAVL065b : LCAV, TYPE="F1.3-08", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL2*LcavLb, PHI0=PhasL2/360 CAVL066 : LCAV, TYPE="F1.3-08", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL067 : LCAV, TYPE="F1.3-08", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL068 : LCAV, TYPE="F1.3-08", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL071 : LCAV, TYPE="J1.3-10", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL072 : LCAV, TYPE="J1.3-10", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL073 : LCAV, TYPE="J1.3-10", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL074 : LCAV, TYPE="J1.3-10", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL075a : LCAV, TYPE="J1.3-10", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL2*LcavLa, PHI0=PhasL2/360 CAVL075b : LCAV, TYPE="J1.3-10", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL2*LcavLb, PHI0=PhasL2/360 CAVL076 : LCAV, TYPE="J1.3-10", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL077 : LCAV, TYPE="J1.3-10", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL078 : LCAV, TYPE="J1.3-10", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL081 : LCAV, TYPE="F1.3-04", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL082 : LCAV, TYPE="F1.3-04", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL083 : LCAV, TYPE="F1.3-04", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL084 : LCAV, TYPE="F1.3-04", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL085a : LCAV, TYPE="F1.3-04", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL2*LcavLa, PHI0=PhasL2/360 CAVL085b : LCAV, TYPE="F1.3-04", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL2*LcavLb, PHI0=PhasL2/360 CAVL086 : LCAV, TYPE="F1.3-04", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL087 : LCAV, TYPE="F1.3-04", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL088 : LCAV, TYPE="F1.3-04", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL091 : LCAV, TYPE="J1.3-08", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL092 : LCAV, TYPE="J1.3-08", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL093 : LCAV, TYPE="J1.3-08", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL094 : LCAV, TYPE="J1.3-08", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL095a : LCAV, TYPE="J1.3-08", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL2*LcavLa, PHI0=PhasL2/360 CAVL095b : LCAV, TYPE="J1.3-08", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL2*LcavLb, PHI0=PhasL2/360 CAVL096 : LCAV, TYPE="J1.3-08", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL097 : LCAV, TYPE="J1.3-08", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL098 : LCAV, TYPE="J1.3-08", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL101 : LCAV, TYPE="F1.3-10", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL102 : LCAV, TYPE="F1.3-10", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL103 : LCAV, TYPE="F1.3-10", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL104 : LCAV, TYPE="F1.3-10", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL105a : LCAV, TYPE="F1.3-10", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL2*LcavLa, PHI0=PhasL2/360 CAVL105b : LCAV, TYPE="F1.3-10", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL2*LcavLb, PHI0=PhasL2/360 CAVL106 : LCAV, TYPE="F1.3-10", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL107 : LCAV, TYPE="F1.3-10", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL108 : LCAV, TYPE="F1.3-10", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL111 : LCAV, TYPE="F1.3-09", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL112 : LCAV, TYPE="F1.3-09", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL113 : LCAV, TYPE="F1.3-09", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL114 : LCAV, TYPE="F1.3-09", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL115a : LCAV, TYPE="F1.3-09", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL2*LcavLa, PHI0=PhasL2/360 CAVL115b : LCAV, TYPE="F1.3-09", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL2*LcavLb, PHI0=PhasL2/360 CAVL116 : LCAV, TYPE="F1.3-09", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL117 : LCAV, TYPE="F1.3-09", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL118 : LCAV, TYPE="F1.3-09", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL121 : LCAV, TYPE="J1.3-13", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL122 : LCAV, TYPE="J1.3-13", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL123 : LCAV, TYPE="J1.3-13", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL124 : LCAV, TYPE="J1.3-13", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL125a : LCAV, TYPE="J1.3-13", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL2*LcavLa, PHI0=PhasL2/360 CAVL125b : LCAV, TYPE="J1.3-13", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL2*LcavLb, PHI0=PhasL2/360 CAVL126 : LCAV, TYPE="J1.3-13", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL127 : LCAV, TYPE="J1.3-13", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL128 : LCAV, TYPE="J1.3-13", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL131 : LCAV, TYPE="F1.3-11", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL132 : LCAV, TYPE="F1.3-11", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL133 : LCAV, TYPE="F1.3-11", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL134 : LCAV, TYPE="F1.3-11", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL135a : LCAV, TYPE="F1.3-11", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL2*LcavLa, PHI0=PhasL2/360 CAVL135b : LCAV, TYPE="F1.3-11", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL2*LcavLb, PHI0=PhasL2/360 CAVL136 : LCAV, TYPE="F1.3-11", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL137 : LCAV, TYPE="F1.3-11", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL138 : LCAV, TYPE="F1.3-11", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL141 : LCAV, TYPE="J1.3-14", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL142 : LCAV, TYPE="J1.3-14", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL143 : LCAV, TYPE="J1.3-14", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL144 : LCAV, TYPE="J1.3-14", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL145a : LCAV, TYPE="J1.3-14", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL2*LcavLa, PHI0=PhasL2/360 CAVL145b : LCAV, TYPE="J1.3-14", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL2*LcavLb, PHI0=PhasL2/360 CAVL146 : LCAV, TYPE="J1.3-14", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL147 : LCAV, TYPE="J1.3-14", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL148 : LCAV, TYPE="J1.3-14", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL151 : LCAV, TYPE="F1.3-01", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL152 : LCAV, TYPE="F1.3-01", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL153 : LCAV, TYPE="F1.3-01", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL154 : LCAV, TYPE="F1.3-01", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL155a : LCAV, TYPE="F1.3-01", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL2*LcavLa, PHI0=PhasL2/360 CAVL155b : LCAV, TYPE="F1.3-01", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL2*LcavLb, PHI0=PhasL2/360 CAVL156 : LCAV, TYPE="F1.3-01", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL157 : LCAV, TYPE="F1.3-01", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL158 : LCAV, TYPE="F1.3-01", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 ! L3 CAVL161 : LCAV, TYPE="F1.3-13", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL162 : LCAV, TYPE="F1.3-13", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL163 : LCAV, TYPE="F1.3-13", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL164 : LCAV, TYPE="F1.3-13", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL165a : LCAV, TYPE="F1.3-13", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL165b : LCAV, TYPE="F1.3-13", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL166 : LCAV, TYPE="F1.3-13", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL167 : LCAV, TYPE="F1.3-13", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL168 : LCAV, TYPE="F1.3-13", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL171 : LCAV, TYPE="J1.3-12", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL172 : LCAV, TYPE="J1.3-12", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL173 : LCAV, TYPE="J1.3-12", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL174 : LCAV, TYPE="J1.3-12", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL175a : LCAV, TYPE="J1.3-12", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL175b : LCAV, TYPE="J1.3-12", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL176 : LCAV, TYPE="J1.3-12", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL177 : LCAV, TYPE="J1.3-12", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL178 : LCAV, TYPE="J1.3-12", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL181 : LCAV, TYPE="J1.3-06", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL182 : LCAV, TYPE="J1.3-06", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL183 : LCAV, TYPE="J1.3-06", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL184 : LCAV, TYPE="J1.3-06", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL185a : LCAV, TYPE="J1.3-06", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL185b : LCAV, TYPE="J1.3-06", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL186 : LCAV, TYPE="J1.3-06", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL187 : LCAV, TYPE="J1.3-06", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL188 : LCAV, TYPE="J1.3-06", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL191 : LCAV, TYPE="F1.3-17", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL192 : LCAV, TYPE="F1.3-17", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL193 : LCAV, TYPE="F1.3-17", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL194 : LCAV, TYPE="F1.3-17", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL195a : LCAV, TYPE="F1.3-17", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL195b : LCAV, TYPE="F1.3-17", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL196 : LCAV, TYPE="F1.3-17", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL197 : LCAV, TYPE="F1.3-17", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL198 : LCAV, TYPE="F1.3-17", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL201 : LCAV, TYPE="F1.3-18", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL202 : LCAV, TYPE="F1.3-18", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL203 : LCAV, TYPE="F1.3-18", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL204 : LCAV, TYPE="F1.3-18", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL205a : LCAV, TYPE="F1.3-18", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL205b : LCAV, TYPE="F1.3-18", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL206 : LCAV, TYPE="F1.3-18", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL207 : LCAV, TYPE="F1.3-18", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL208 : LCAV, TYPE="F1.3-18", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL211 : LCAV, TYPE="J1.3-15", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL212 : LCAV, TYPE="J1.3-15", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL213 : LCAV, TYPE="J1.3-15", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL214 : LCAV, TYPE="J1.3-15", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL215a : LCAV, TYPE="J1.3-15", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL215b : LCAV, TYPE="J1.3-15", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL216 : LCAV, TYPE="J1.3-15", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL217 : LCAV, TYPE="J1.3-15", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL218 : LCAV, TYPE="J1.3-15", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL221 : LCAV, TYPE="F1.3-14", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL222 : LCAV, TYPE="F1.3-14", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL223 : LCAV, TYPE="F1.3-14", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL224 : LCAV, TYPE="F1.3-14", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL225a : LCAV, TYPE="F1.3-14", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL225b : LCAV, TYPE="F1.3-14", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL226 : LCAV, TYPE="F1.3-14", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL227 : LCAV, TYPE="F1.3-14", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL228 : LCAV, TYPE="F1.3-14", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL231 : LCAV, TYPE="F1.3-15", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL232 : LCAV, TYPE="F1.3-15", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL233 : LCAV, TYPE="F1.3-15", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL234 : LCAV, TYPE="F1.3-15", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL235a : LCAV, TYPE="F1.3-15", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL235b : LCAV, TYPE="F1.3-15", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL236 : LCAV, TYPE="F1.3-15", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL237 : LCAV, TYPE="F1.3-15", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL238 : LCAV, TYPE="F1.3-15", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL241 : LCAV, TYPE="F1.3-16", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL242 : LCAV, TYPE="F1.3-16", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL243 : LCAV, TYPE="F1.3-16", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL244 : LCAV, TYPE="F1.3-16", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL245a : LCAV, TYPE="F1.3-16", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL245b : LCAV, TYPE="F1.3-16", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL246 : LCAV, TYPE="F1.3-16", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL247 : LCAV, TYPE="F1.3-16", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL248 : LCAV, TYPE="F1.3-16", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL251 : LCAV, TYPE="J1.3-17", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL252 : LCAV, TYPE="J1.3-17", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL253 : LCAV, TYPE="J1.3-17", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL254 : LCAV, TYPE="J1.3-17", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL255a : LCAV, TYPE="J1.3-17", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL255b : LCAV, TYPE="J1.3-17", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL256 : LCAV, TYPE="J1.3-17", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL257 : LCAV, TYPE="J1.3-17", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL258 : LCAV, TYPE="J1.3-17", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL261 : LCAV, TYPE="J1.3-01", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL262 : LCAV, TYPE="J1.3-01", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL263 : LCAV, TYPE="J1.3-01", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL264 : LCAV, TYPE="J1.3-01", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL265a : LCAV, TYPE="J1.3-01", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL265b : LCAV, TYPE="J1.3-01", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL266 : LCAV, TYPE="J1.3-01", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL267 : LCAV, TYPE="J1.3-01", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL268 : LCAV, TYPE="J1.3-01", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL271 : LCAV, TYPE="F1.3-02", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL272 : LCAV, TYPE="F1.3-02", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL273 : LCAV, TYPE="F1.3-02", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL274 : LCAV, TYPE="F1.3-02", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL275a : LCAV, TYPE="F1.3-02", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL275b : LCAV, TYPE="F1.3-02", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL276 : LCAV, TYPE="F1.3-02", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL277 : LCAV, TYPE="F1.3-02", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL278 : LCAV, TYPE="F1.3-02", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL281 : LCAV, TYPE="J1.3-03", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL282 : LCAV, TYPE="J1.3-03", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL283 : LCAV, TYPE="J1.3-03", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL284 : LCAV, TYPE="J1.3-03", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL285a : LCAV, TYPE="J1.3-03", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL285b : LCAV, TYPE="J1.3-03", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL286 : LCAV, TYPE="J1.3-03", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL287 : LCAV, TYPE="J1.3-03", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL288 : LCAV, TYPE="J1.3-03", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL291 : LCAV, TYPE="J1.3-18", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL292 : LCAV, TYPE="J1.3-18", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL293 : LCAV, TYPE="J1.3-18", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL294 : LCAV, TYPE="J1.3-18", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL295a : LCAV, TYPE="J1.3-18", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL295b : LCAV, TYPE="J1.3-18", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL296 : LCAV, TYPE="J1.3-18", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL297 : LCAV, TYPE="J1.3-18", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL298 : LCAV, TYPE="J1.3-18", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL301 : LCAV, TYPE="J1.3-16", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL302 : LCAV, TYPE="J1.3-16", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL303 : LCAV, TYPE="J1.3-16", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL304 : LCAV, TYPE="J1.3-16", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL305a : LCAV, TYPE="J1.3-16", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL305b : LCAV, TYPE="J1.3-16", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL306 : LCAV, TYPE="J1.3-16", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL307 : LCAV, TYPE="J1.3-16", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL308 : LCAV, TYPE="J1.3-16", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL311 : LCAV, TYPE="J1.3-19", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL312 : LCAV, TYPE="J1.3-19", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL313 : LCAV, TYPE="J1.3-19", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL314 : LCAV, TYPE="J1.3-19", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL315a : LCAV, TYPE="J1.3-19", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL315b : LCAV, TYPE="J1.3-19", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL316 : LCAV, TYPE="J1.3-19", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL317 : LCAV, TYPE="J1.3-19", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL318 : LCAV, TYPE="J1.3-19", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL321 : LCAV, TYPE="F1.3-03", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL322 : LCAV, TYPE="F1.3-03", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL323 : LCAV, TYPE="F1.3-03", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL324 : LCAV, TYPE="F1.3-03", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL325a : LCAV, TYPE="F1.3-03", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL325b : LCAV, TYPE="F1.3-03", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL326 : LCAV, TYPE="F1.3-03", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL327 : LCAV, TYPE="F1.3-03", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL328 : LCAV, TYPE="F1.3-03", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL331 : LCAV, TYPE="J1.3-05", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL332 : LCAV, TYPE="J1.3-05", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL333 : LCAV, TYPE="J1.3-05", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL334 : LCAV, TYPE="J1.3-05", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL335a : LCAV, TYPE="J1.3-05", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL335b : LCAV, TYPE="J1.3-05", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL336 : LCAV, TYPE="J1.3-05", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL337 : LCAV, TYPE="J1.3-05", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL338 : LCAV, TYPE="J1.3-05", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL341 : LCAV, TYPE="J1.3-09", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL342 : LCAV, TYPE="J1.3-09", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL343 : LCAV, TYPE="J1.3-09", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL344 : LCAV, TYPE="J1.3-09", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL345a : LCAV, TYPE="J1.3-09", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL345b : LCAV, TYPE="J1.3-09", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL346 : LCAV, TYPE="J1.3-09", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL347 : LCAV, TYPE="J1.3-09", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL348 : LCAV, TYPE="J1.3-09", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL351 : LCAV, TYPE="J1.3-07", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL352 : LCAV, TYPE="J1.3-07", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL353 : LCAV, TYPE="J1.3-07", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL354 : LCAV, TYPE="J1.3-07", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL355a : LCAV, TYPE="J1.3-07", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL3*LcavLa, PHI0=PhasL3/360 CAVL355b : LCAV, TYPE="J1.3-07", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL3*LcavLb, PHI0=PhasL3/360 CAVL356 : LCAV, TYPE="J1.3-07", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL357 : LCAV, TYPE="J1.3-07", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL358 : LCAV, TYPE="J1.3-07", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 ! L4 (LCLS-II-HE cavities) CAVL371 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL372 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL373 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL374 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL375a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL375b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL376 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL377 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL378 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL381 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL382 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL383 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL384 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL385a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL385b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL386 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL387 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL388 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL391 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL392 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL393 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL394 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL395a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL395b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL396 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL397 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL398 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL401 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL402 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL403 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL404 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL405a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL405b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL406 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL407 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL408 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL411 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL412 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL413 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL414 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL415a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL415b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL416 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL417 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL418 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL421 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL422 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL423 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL424 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL425a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL425b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL426 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL427 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL428 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL431 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL432 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL433 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL434 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL435a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL435b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL436 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL437 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL438 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL441 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL442 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL443 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL444 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL445a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL445b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL446 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL447 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL448 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL451 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL452 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL453 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL454 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL455a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL455b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL456 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL457 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL458 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL461 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL462 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL463 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL464 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL465a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL465b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL466 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL467 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL468 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL471 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL472 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL473 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL474 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL475a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL475b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL476 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL477 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL478 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL481 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL482 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL483 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL484 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL485a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL485b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL486 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL487 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL488 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL491 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL492 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL493 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL494 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL495a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL495b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL496 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL497 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL498 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL501 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL502 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL503 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL504 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL505a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL505b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL506 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL507 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL508 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL511 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL512 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL513 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL514 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL515a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL515b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL516 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL517 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL518 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL521 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL522 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL523 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL524 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL525a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL525b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL526 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL527 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL528 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL531 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL532 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL533 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL534 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL535a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL535b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL536 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL537 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL538 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL541 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL542 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL543 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL544 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL545a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL545b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL546 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL547 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL548 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL551 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL552 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL553 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL554 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL555a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL555b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL556 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL557 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL558 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL561 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL562 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL563 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL564 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL565a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL565b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL566 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL567 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL568 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL571 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL572 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL573 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL574 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL575a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL575b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL576 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL577 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL578 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL581 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL582 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL583 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL584 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL585a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL585b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL586 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL587 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL588 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL591 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL592 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL593 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL594 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL595a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=GradL4*LcavLa, PHI0=PhasL4/360 CAVL595b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=GradL4*LcavLb, PHI0=PhasL4/360 CAVL596 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL597 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL598 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 ! CM00 (LEI) ! Gradients (MV/m) ... cavity energy gains per C. Mayes G001 := 11.258486243417/LcavL G002 := 8.5980938667558/LcavL G003 := 0.98836922837401/LcavL G004 := 1.7422819115887/LcavL fG00 := 0.914602830935 !to get to 90 MeV G005 := fG00*17.4217766323/LcavL G006 := fG00*17.4217766323/LcavL G007 := fG00*17.4217766323/LcavL G008 := fG00*17.4217766323/LcavL !VALUE, G001,G002,G003,G004,G005,G006,G007,G008 ! Phases (rad/2pi) ... cavity phases per C. Mayes P001 := -0.12660291591431 P002 := -0.045730061605438 P003 := -0.070746228060159 P004 := 0.080631223424744 P005 := 0 P006 := 0 P007 := 0 P008 := 0 CAVL001 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G001*LcavL, PHI0=P001 CAVL002 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G002*LcavL, PHI0=P002 CAVL003 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G003*LcavL, PHI0=P003 CAVL004 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G004*LcavL, PHI0=P004 CAVL005a : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLa, & DELTAE=G005*LcavLa, PHI0=P005 CAVL005b : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavLb, & DELTAE=G005*LcavLb, PHI0=P005 CAVL006 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G006*LcavL, PHI0=P006 CAVL007 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G007*LcavL, PHI0=P007 CAVL008 : LCAV, TYPE="cryo", FREQ=1300, APER=LcavR, L=LcavL, & DELTAE=G008*LcavL, PHI0=P008 ! define unsplit LCAVs for BMAD ... not used by MAD CAVL015 : LCAV, TYPE="F1.3-19", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=G015*LcavL, PHI0=P015/360 CAVL025 : LCAV, TYPE="J1.3-21", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=G025*LcavL, PHI0=P025/360 CAVL035 : LCAV, TYPE="J1.3-20", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=G035*LcavL, PHI0=P035/360 CAVC012 : LCAV, TYPE="F3.9-01", APER=CcavR, FREQ=3900, L=CcavL, & DELTAE=GHcav*CcavL, PHI0=PHcav/360 CAVC022 : LCAV, TYPE="F3.9-02", APER=CcavR, FREQ=3900, L=CcavL, & DELTAE=GHcav*CcavL, PHI0=PHcav/360 CAVL045 : LCAV, TYPE="F1.3-07", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL055 : LCAV, TYPE="J1.3-04", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL065 : LCAV, TYPE="F1.3-08", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL075 : LCAV, TYPE="J1.3-10", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL085 : LCAV, TYPE="F1.3-04", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL095 : LCAV, TYPE="J1.3-08", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL105 : LCAV, TYPE="F1.3-10", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL115 : LCAV, TYPE="F1.3-09", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL125 : LCAV, TYPE="J1.3-13", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL135 : LCAV, TYPE="F1.3-11", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL145 : LCAV, TYPE="J1.3-14", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL155 : LCAV, TYPE="F1.3-01", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL2*LcavL, PHI0=PhasL2/360 CAVL165 : LCAV, TYPE="F1.3-13", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL175 : LCAV, TYPE="J1.3-12", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL185 : LCAV, TYPE="J1.3-06", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL195 : LCAV, TYPE="F1.3-17", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL205 : LCAV, TYPE="F1.3-18", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL215 : LCAV, TYPE="J1.3-15", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL225 : LCAV, TYPE="F1.3-14", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL235 : LCAV, TYPE="F1.3-15", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL245 : LCAV, TYPE="F1.3-16", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL255 : LCAV, TYPE="J1.3-17", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL265 : LCAV, TYPE="J1.3-01", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL275 : LCAV, TYPE="F1.3-02", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL285 : LCAV, TYPE="J1.3-03", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL295 : LCAV, TYPE="J1.3-18", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL305 : LCAV, TYPE="J1.3-16", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL315 : LCAV, TYPE="J1.3-19", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL325 : LCAV, TYPE="F1.3-03", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL335 : LCAV, TYPE="J1.3-05", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL345 : LCAV, TYPE="J1.3-09", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL355 : LCAV, TYPE="J1.3-07", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL3*LcavL, PHI0=PhasL3/360 CAVL375 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL385 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL395 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL405 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL415 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL425 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL435 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL445 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL455 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL465 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL475 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL485 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL495 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL505 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL515 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL525 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL535 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL545 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL555 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL565 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL575 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL585 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL595 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=GradL4*LcavL, PHI0=PhasL4/360 CAVL005 : LCAV, TYPE="cryo", APER=LcavR, FREQ=1300, L=LcavL, & DELTAE=G005*LcavL, PHI0=P005 ! ============================================================================== ! QUAD (cryo quads: -24.42 kG < GL < +24.42 kG) ! ------------------------------------------------------------------------------ Lcmq := 0.23 !cryomodule quadrupole length Rcmq := 0.0762/2 !cryomodule quadrupole pole-tip radius KQCMfodo1 := 0.274030631043 !L1: 45 degrees/cell KQCMfodo2 := 0.185334132537 !L2: 30 degrees/cell KQCMfodo3 := 0.185334132537 !L3: 30 degrees/cell KQCMfodo4 := 0.185334132537 !L4: 30 degrees/cell ! L0 KQCM01 := 0 !bipolar QCM01 : QUAD, TYPE="cryo SPQA127", L=Lcmq/2, APER=Rcmq, K1= KQCM01 ! L1 QCM02 : QUAD, TYPE="cryo SPQA135", L=Lcmq/2, APER=Rcmq, K1=-0.350806201565 !-KQCMfodo1 QCM03 : QUAD, TYPE="cryo SPQA136", L=Lcmq/2, APER=Rcmq, K1= 0.23963213759 ! KQCMfodo1 ! L2 QCM04 : QUAD, TYPE="cryo SPQA109", L=Lcmq/2, APER=Rcmq, K1=-0.33565319753 !-KQCMfodo2 QCM05 : QUAD, TYPE="cryo SPQA104", L=Lcmq/2, APER=Rcmq, K1= 0.299085999256 ! KQCMfodo2 QCM06 : QUAD, TYPE="cryo SPQA111", L=Lcmq/2, APER=Rcmq, K1=-0.198005817616 !-KQCMfodo2 QCM07 : QUAD, TYPE="cryo SPQA116", L=Lcmq/2, APER=Rcmq, K1= 0.173036922031 ! KQCMfodo2 QCM08 : QUAD, TYPE="cryo SPQA103", L=Lcmq/2, APER=Rcmq, K1=-0.17165318517 !-KQCMfodo2 QCM09 : QUAD, TYPE="cryo SPQA108", L=Lcmq/2, APER=Rcmq, K1= 0.173724330635 ! KQCMfodo2 QCM10 : QUAD, TYPE="cryo SPQA113", L=Lcmq/2, APER=Rcmq, K1=-0.174485976489 !-KQCMfodo2 QCM11 : QUAD, TYPE="cryo SPQA101", L=Lcmq/2, APER=Rcmq, K1= 0.176178342938 ! KQCMfodo2 QCM12 : QUAD, TYPE="cryo SPQA122", L=Lcmq/2, APER=Rcmq, K1=-0.181266514091 !-KQCMfodo2 QCM13 : QUAD, TYPE="cryo SPQA115", L=Lcmq/2, APER=Rcmq, K1= 0.06263033137 ! KQCMfodo2 QCM14 : QUAD, TYPE="cryo SPQA126", L=Lcmq/2, APER=Rcmq, K1=-0.176141995794 !-KQCMfodo2 QCM15 : QUAD, TYPE="cryo SPQA001", L=Lcmq/2, APER=Rcmq, K1= 0.067810960609 ! KQCMfodo2 ! L3 QCM16 : QUAD, TYPE="cryo SPQA117", L=Lcmq/2, APER=Rcmq, K1=-0.3155368453 !-KQCMfodo3 QCM17 : QUAD, TYPE="cryo SPQA120", L=Lcmq/2, APER=Rcmq, K1= 0.258264126072 ! KQCMfodo3 QCM18 : QUAD, TYPE="cryo SPQA132", L=Lcmq/2, APER=Rcmq, K1=-0.210712917377 !-KQCMfodo3 QCM19 : QUAD, TYPE="cryo SPQA130", L=Lcmq/2, APER=Rcmq, K1= 0.19202182938 ! KQCMfodo3 QCM20 : QUAD, TYPE="cryo SPQA125", L=Lcmq/2, APER=Rcmq, K1=-KQCMfodo3 QCM21 : QUAD, TYPE="cryo SPQA124", L=Lcmq/2, APER=Rcmq, K1= KQCMfodo3 QCM22 : QUAD, TYPE="cryo SPQA119", L=Lcmq/2, APER=Rcmq, K1=-KQCMfodo3 QCM23 : QUAD, TYPE="cryo SPQA121", L=Lcmq/2, APER=Rcmq, K1= 0.186233731191 !-KQCMfodo3 QCM24 : QUAD, TYPE="cryo SPQA123", L=Lcmq/2, APER=Rcmq, K1=-0.191373775731 !-KQCMfodo3 QCM25 : QUAD, TYPE="cryo SPQA114", L=Lcmq/2, APER=Rcmq, K1= 0.179981963716 ! KQCMfodo3 QCM26 : QUAD, TYPE="cryo SPQA002", L=Lcmq/2, APER=Rcmq, K1=-0.179712433163 !-KQCMfodo3 QCM27 : QUAD, TYPE="cryo SPQA003", L=Lcmq/2, APER=Rcmq, K1= 0.191661242462 ! KQCMfodo3 QCM28 : QUAD, TYPE="cryo SPQA102", L=Lcmq/2, APER=Rcmq, K1=-0.186896174797 !-KQCMfodo3 QCM29 : QUAD, TYPE="cryo SPQA134", L=Lcmq/2, APER=Rcmq, K1= KQCMfodo3 QCM30 : QUAD, TYPE="cryo SPQA128", L=Lcmq/2, APER=Rcmq, K1=-KQCMfodo3 QCM31 : QUAD, TYPE="cryo SPQA133", L=Lcmq/2, APER=Rcmq, K1= 0.170596145376 ! KQCMfodo3 QCM32 : QUAD, TYPE="cryo SPQA129", L=Lcmq/2, APER=Rcmq, K1=-0.209399480451 !-KQCMfodo3 QCM33 : QUAD, TYPE="cryo SPQA106", L=Lcmq/2, APER=Rcmq, K1= 0.224994069195 ! KQCMfodo3 QCM34 : QUAD, TYPE="cryo SPQA118", L=Lcmq/2, APER=Rcmq, K1= 0.0 !-KQCMfodo3 QCM35 : QUAD, TYPE="cryo SPQA110", L=Lcmq/2, APER=Rcmq, K1=-0.195245453728 ! KQCMfodo3 ! L4 ( 0.185334132537) QCM37 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1= 0.194427040402 !-KQCMfodo4 QCM38 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1= 0.0 ! KQCMfodo4 QCM39 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1=-0.223445509077 !-KQCMfodo4 QCM40 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1= 0.207340499127 ! KQCMfodo4 QCM41 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1=-0.163250503404 !-KQCMfodo4 QCM42 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1= 0.177913367407 ! KQCMfodo4 QCM43 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1=-KQCMfodo4 QCM44 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1= KQCMfodo4 QCM45 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1=-KQCMfodo4 QCM46 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1= KQCMfodo4 QCM47 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1=-0.190760849206 !-KQCMfodo4 QCM48 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1= 0.182859929283 ! KQCMfodo4 QCM49 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1=-0.183949797991 !-KQCMfodo4 QCM50 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1= 0.191830520846 ! KQCMfodo4 QCM51 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1=-KQCMfodo4 QCM52 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1= KQCMfodo4 QCM53 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1=-KQCMfodo4 QCM54 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1= KQCMfodo4 QCM55 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1=-KQCMfodo4 QCM56 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1= 0.189870005089 ! KQCMfodo4 QCM57 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1=-0.201580564311 !-KQCMfodo4 QCM58 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1= 0.20535798616 ! KQCMfodo4 QCM59 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1=-0.28544124605 !-KQCMfodo4 ! EXT KQX01 := 1.122740546284 KQX02 := -0.932705948652 QX01 : QUAD, TYPE="1.085Q4.31", L=LQE/2, APER=rQE, K1=KQX01 QX02 : QUAD, TYPE="1.085Q4.31", L=LQE/2, APER=rQE, K1=KQX02 ! LEI (CM00) KQCM00 := 0 !bipolar QCM00 : QUAD, TYPE="cryo", L=Lcmq/2, APER=Rcmq, K1=KQCM00 ! ============================================================================== ! DRIF ! ------------------------------------------------------------------------------ ! ------------------------------------------------------------------------------ ! 1.3 GHz cryomodule ! ------------------------------------------------------------------------------ ! from Joshua Kaluzny spreadsheet (2015_11_19) Lgv2cav := 0.79731 !u/s gate valve to cavity #1 !0.79981 Lcav2cav := 1.38360 !intra-CM cavity to cavity Lcav2bpm := 0.81139 !cavity #8 to BPM Lbpm2quad := 0.26444 !BPM to quadrupole Lquad2gv := 0.35186 !quadrupole to d/s gate valve !0.35436 Lgv2hom := 0.16577 !d/s gate valve to HOM absorber !0.16327 Lhom2gv := 0.14442 !HOM absorber to u/s gate valve !0.14192 ! derived dimensions Lcav2quad := Lcav2bpm+Lbpm2quad !cavity #8 quadrupole Lcav2gv := Lcav2quad+Lquad2gv !cavity #8 to d/s gate valve Lcav2hom := Lcav2gv+Lgv2hom !cavity #8 to HOM absorber Lgv2gv := Lgv2hom+Lhom2gv !d/s gate valve to u/s gate valve Lcm2cm := Lcav2gv+Lgv2gv+Lgv2cav !inter-CM cavity-to-cavity ! for Bmad field maps (1.3 GHz field map length is 1.3 m per C. Mayes) Lcavmap := (1.3-LcavL)/2 !m ! cryomodule drifts DCAVMAP : DRIF, L=Lcavmap DCM1 : DRIF, L=Lgv2cav-(Lcavmap+LcavL/2) DCM2 : DRIF, L=Lcav2cav-(Lcavmap+LcavL+Lcavmap) DCM3 : DRIF, L=Lcav2bpm-(LcavL/2+Lcavmap) DCM4 : DRIF, L=Lbpm2quad-Lcmq/2 DCM5 : DRIF, L=Lquad2gv-Lcmq/2 DCMCM1 : DRIF, L=Lgv2hom DCMCM2 : DRIF, L=Lhom2gv DCM4b : DRIF, L=0.03 DCM4a : DRIF, L=DCM4[L]-DCM4b[L] ! ------------------------------------------------------------------------------ ! 1.3 GHz cryomodule to 3.9 GHz cryomodule ! ------------------------------------------------------------------------------ Lhom2Hgv := 0.14282 !HOM absorber to u/s gate valve !0.17021 DCMCMH1 : DRIF, L=Lgv2hom DCMCMH2 : DRIF, L=Lhom2Hgv ! ------------------------------------------------------------------------------ ! 3.9 GHz cryomodule dimensions ! ------------------------------------------------------------------------------ ! new (18-May-16) Lgv2Hcav := 1.14660 !u/s gate valve to cavity #1 LHcav2Hcav := 0.63416 !intra-CMH cavity to cavity LHcav2bpm := 0.49684 !cavity #8 to BPM LHbpm2gv := 0.16449 !BPM to d/s gate valve (no magnet package) LHgv2Hhom := 0.16888 !d/s gate valve to HOM absorber LHhom2Hgv := 0.13857 !HOM absorber to u/s gate valve ! derived dimensions LHcav2gv := LHcav2bpm+LHbpm2gv !cavity #8 to d/s gate valve ! for Bmad field maps (3.9 GHz field map length is 0.44 m per C. Mayes) LHcavmap := (0.44-CcavL)/2 !m ! cryomodule drifts DHCAVMAP : DRIF, L=LHcavmap DCMH0 : DRIF, L=1.14662-(LHcavmap+CcavL/2) DCMH1 : DRIF, L=Lgv2Hcav-(LHcavmap+CcavL/2) DCMH2 : DRIF, L=LHcav2Hcav-(LHcavmap+CcavL+LHcavmap) DCMH3 : DRIF, L=LHcav2bpm-(CcavL/2+LHcavmap) DCMH4 : DRIF, L=LHbpm2gv DCMHCMH1 : DRIF, L=LHgv2Hhom DCMHCMH2 : DRIF, L=LHhom2Hgv ! ------------------------------------------------------------------------------ ! miscellaneous cryomodule definitions ! ------------------------------------------------------------------------------ LcryoL := DCM1[L]+8*(Lcavmap+LcavL+Lcavmap)+7*DCM2[L]& +DCM3[L]+DCM4[L]+Lcmq+DCM5[L] LcryoC := DCMH1[L]+8*(LHcavmap+CcavL+LHcavmap)+7*DCMH2[L]& +DCMH3[L]+DCMH4[L] LDCMfodo := LcryoL+Lgv2gv-Lcmq Lslot := LcryoL+DCMCM1[L]+DCMCM2[L] COMMENT VALUE, DCM1[L],DCM2[L],DCM3[L],DCM4[L],DCM5[L],DCMCM1[L],DCMCM2[L] VALUE, DCMH1[L],DCMH2[L],DCMH3[L],DCMH4[L] VALUE, LcryoL,LcryoC,LDCMfodo,LDCMfodo+Lcmq,Lslot ENDCOMMENT ! ------------------------------------------------------------------------------ ! end caps, stay-clears, and vacuum breaks ! ------------------------------------------------------------------------------ ! use new endpoints of L0B, L1B, L2B, L3B, and L4B, as MSC's; add vacuum valves ! there per S. Saraf (dZ's are relative to 13MAR23 locations) !dZMSC0d = -0.250200 !relocate MSC0d (ENDL0B/BEGHTR_1) !dZMSC1u = -0.000590 !relocate MSC1u (ENDCOL0/BEGL1B) !dZMSC1d = -0.013570 !relocate MSC1d (ENDL1B/BEGBC1B) !dZMSC2u = 0.022998 !relocate MSC2u (ENDCOL1/BEGL2B !dZMSC2d = -0.039882 !relocate MSC2d (ENDL2B/BEGBC2B) !dZMSC3u = 0.039750 !relocate MSC3u (ENDEMIT2/BEGL3B) !dZMSC3d = 0.322740 !relocate MSC3d (ENDL3B/BEGBR3B) !dZMSC4u = -0.559000 !relocate MSC4u (ENDBR3B/BEGL4B) !dZMSC4d = 0.070760 !relocate MSC4d (ENDL4B/BEGEXT) !dZENDEXT = -0.233300 !relocate ENDEXT (ENDEXT/BEGDOG) !dZMSCLEI = -0.250200 !relocate MSCLEI (ENDL0LEI/BEGLEI_1) ! end cap and feed cap dimensions, mechanical stay-clear, and differential ! vacuum pumping stay-clear (mostly from drawing SD-375-000-99-02) DCAP0u : DRIF, L=0.49294 !EC1 to CSP01 = 6.965000 DCAP0d : DRIF, L=1.89015 !CSP01 to FC1 = 7.328290 DMSC0d : DRIF, L=1.5788 !CSP01 to MSC0d = 8.907090 DMSC1u : DRIF, L=1.82959 !MSC1u to CSP02 = 9.174590 DCAP1u : DRIF, L=0.87294 !FC2 to CSP02 = 7.345000 DCAP1d : DRIF, L=1.75429 !CSPH2 to FC3 = 6.333200 DMSC1d : DRIF, L=1.81543 !CSPH2 to MSC1d = 8.148630 DMSC2u : DRIF, L=1.806002 !MSC2u to CSP04 = 9.151002 DCAP2u : DRIF, L=0.87294 !FC4 to CSP04 = 7.345000 DCAP2d : DRIF, L=1.58968 !CSP15 to FC5 = 7.193590 DMSC2d : DRIF, L=1.789118 !CSP15 to MSC2d = 8.982708 DMSC3u : DRIF, L=1.78925 !MSC3u to CSP16 = 9.134250 DCAP3u : DRIF, L=0.87294 !FC6 to CSP16 = 7.345000 DCAP3d : DRIF, L=1.72438 !CSP35 to EC2 = 7.328290 DMSC3d : DRIF, L=1.91074 !CSP35 to MSC3d = 9.239030 DMSC4u : DRIF, L=1.973 !MSC4u to CSP37 = 10.068060 (1.5029) DCAP4u : DRIF, L=1.623 !FC7 to CSP37 = 8.095060 DCAP4d : DRIF, L=1.72438 !CSP59 to EC3 = 7.328290 DMSC4d : DRIF, L=1.53476 !CSP59 to MSC4d = 8.863050 DCAP0d2 : DRIF, L=1.72438 !CSP00 to FC0 = 7.328290 ! standard vacuum break DBREAK : DRIF, L=2.54931 ! beamline flanges LBLF := 0.0889 !beamline flange to cap face (m) DMSC1ub : DRIF, L=LBLF DMSC1ua : DRIF, L=DMSC1u[L]-DMSC1ub[L] DMSC1da : DRIF, L=LBLF DMSC1db : DRIF, L=DMSC1d[L]-DMSC1da[L] DMSC2ub : DRIF, L=LBLF DMSC2ua : DRIF, L=DMSC2u[L]-DMSC2ub[L] DMSC2da : DRIF, L=LBLF DMSC2db : DRIF, L=0.764218 DMSC2dc : DRIF, L=DMSC2d[L]-DMSC2da[L]-DMSC2db[L] DMSC3ua : DRIF, L=0.929 DMSC3uc : DRIF, L=LBLF DMSC3ub : DRIF, L=DMSC3u[L]-DMSC3ua[L]-DMSC3uc[L] DMSC3da : DRIF, L=LBLF DMSC3db : DRIF, L=1.25884 DMSC3dc : DRIF, L=DMSC3d[L]-DMSC3da[L]-DMSC3db[L] DMSC4ua : DRIF, L=1.8841 !1.3251 DMSC4ub : DRIF, L=DMSC4u[L]-DMSC4ua[L] DCAP4ua : DRIF, L=0.647 DCAP4ub : DRIF, L=DCAP4u[L]-DCAP4ua[L] DMSC4da : DRIF, L=LBLF DMSC4db : DRIF, L=DMSC4d[L]-DMSC4da[L] ! split L0 downstream endcap drift for ASTRA treaty point (15 m from cathode) Lastra := 0.378513 DCAP0da : DRIF, L=Lastra DCAP0db : DRIF, L=DCAP0d[L]-DCMCM1[L]-DCAP0da[L] ! vacuum components after L0 and L0LEI endcaps DMSC0da : DRIF, L=LBLF DMSC0db : DRIF, L=1.231893 DMSC0dc : DRIF, L=0.1016 DMSC0dd : DRIF, L=DMSC0d[L]-DMSC0da[L]-DMSC0db[L]-DMSC0dc[L] ! BR3B definitions DSLOT36 : DRIF, L=5.13369 !5.81669 DTEE : DRIF, L=2.54931 !CDS "tee" length DTEEb : DRIF, L=0.559 DTEEa : DRIF, L=DTEE[L]-DTEEb[L] ! EXT definitions dZQX01 := 0 dZQX02 := 0 DX00 : DRIF, L=3.20737366295+dZQX01 !0.952133836531 DX01 : DRIF, L=7.691722613007-dZQX01+dZQX02 DX02 : DRIF, L=6.815304-dZQX02 !3.902304 DX01a : DRIF, L=0.4-LQE/2 DX01c : DRIF, L=0.2 DX01b : DRIF, L=DX01[L]-DX01a[L]-DX01c[L] DX02a : DRIF, L=0.4-LQE/2 DX02c : DRIF, L=2.913 DX02b : DRIF, L=DX02[L]-DX02a[L]-DX02c[L] ! ============================================================================== ! BPMs ! ------------------------------------------------------------------------------ CMB01 : MONI, TYPE="cryo F1.3-19" CMB02 : MONI, TYPE="cryo J1.3-21" CMB03 : MONI, TYPE="cryo J1.3-20" CMBH1 : MONI, TYPE="cryo F3.9-01" CMBH2 : MONI, TYPE="cryo F3.9-02" CMB04 : MONI, TYPE="cryo F1.3-07" CMB05 : MONI, TYPE="cryo J1.3-04" CMB06 : MONI, TYPE="cryo F1.3-08" CMB07 : MONI, TYPE="cryo J1.3-10" CMB08 : MONI, TYPE="cryo F1.3-04" CMB09 : MONI, TYPE="cryo J1.3-08" CMB10 : MONI, TYPE="cryo F1.3-10" CMB11 : MONI, TYPE="cryo F1.3-09" CMB12 : MONI, TYPE="cryo J1.3-13" CMB13 : MONI, TYPE="cryo F1.3-11" CMB14 : MONI, TYPE="cryo J1.3-14" CMB15 : MONI, TYPE="cryo F1.3-01" CMB16 : MONI, TYPE="cryo F1.3-13" CMB17 : MONI, TYPE="cryo J1.3-12" CMB18 : MONI, TYPE="cryo J1.3-06" CMB19 : MONI, TYPE="cryo F1.3-17" CMB20 : MONI, TYPE="cryo F1.3-18" CMB21 : MONI, TYPE="cryo J1.3-15" CMB22 : MONI, TYPE="cryo F1.3-14" CMB23 : MONI, TYPE="cryo F1.3-15" CMB24 : MONI, TYPE="cryo F1.3-16" CMB25 : MONI, TYPE="cryo J1.3-17" CMB26 : MONI, TYPE="cryo J1.3-01" CMB27 : MONI, TYPE="cryo F1.3-02" CMB28 : MONI, TYPE="cryo J1.3-03" CMB29 : MONI, TYPE="cryo J1.3-18" CMB30 : MONI, TYPE="cryo J1.3-16" CMB31 : MONI, TYPE="cryo J1.3-19" CMB32 : MONI, TYPE="cryo F1.3-03" CMB33 : MONI, TYPE="cryo J1.3-05" CMB34 : MONI, TYPE="cryo J1.3-09" CMB35 : MONI, TYPE="cryo J1.3-07" CMB37 : MONI, TYPE="cryo" CMB38 : MONI, TYPE="cryo" CMB39 : MONI, TYPE="cryo" CMB40 : MONI, TYPE="cryo" CMB41 : MONI, TYPE="cryo" CMB42 : MONI, TYPE="cryo" CMB43 : MONI, TYPE="cryo" CMB44 : MONI, TYPE="cryo" CMB45 : MONI, TYPE="cryo" CMB46 : MONI, TYPE="cryo" CMB47 : MONI, TYPE="cryo" CMB48 : MONI, TYPE="cryo" CMB49 : MONI, TYPE="cryo" CMB50 : MONI, TYPE="cryo" CMB51 : MONI, TYPE="cryo" CMB52 : MONI, TYPE="cryo" CMB53 : MONI, TYPE="cryo" CMB54 : MONI, TYPE="cryo" CMB55 : MONI, TYPE="cryo" CMB56 : MONI, TYPE="cryo" CMB57 : MONI, TYPE="cryo" CMB58 : MONI, TYPE="cryo" CMB59 : MONI, TYPE="cryo" CMB00 : MONI, TYPE="cryo Button-1" RFB2C00 : MONI, TYPE="@2,CavityS-1" BPMX01 : MONI, TYPE="Stripline-2" BPMX02 : MONI, TYPE="Stripline-2" RFBX02 : MONI, TYPE="@2,CavityS-1" ! ============================================================================== ! XCORs ! ------------------------------------------------------------------------------ XCM01 : HKIC, TYPE="cryo F1.3-19" XCM02 : HKIC, TYPE="cryo J1.3-21" XCM03 : HKIC, TYPE="cryo J1.3-20" XCM04 : HKIC, TYPE="cryo F1.3-07" XCM05 : HKIC, TYPE="cryo J1.3-04" XCM06 : HKIC, TYPE="cryo F1.3-08" XCM07 : HKIC, TYPE="cryo J1.3-10" XCM08 : HKIC, TYPE="cryo F1.3-04" XCM09 : HKIC, TYPE="cryo J1.3-08" XCM10 : HKIC, TYPE="cryo F1.3-10" XCM11 : HKIC, TYPE="cryo F1.3-09" XCM12 : HKIC, TYPE="cryo J1.3-13" XCM13 : HKIC, TYPE="cryo F1.3-11" XCM14 : HKIC, TYPE="cryo J1.3-14" XCM15 : HKIC, TYPE="cryo F1.3-01" XCM16 : HKIC, TYPE="cryo F1.3-13" XCM17 : HKIC, TYPE="cryo J1.3-12" XCM18 : HKIC, TYPE="cryo J1.3-06" XCM19 : HKIC, TYPE="cryo F1.3-17" XCM20 : HKIC, TYPE="cryo F1.3-18" XCM21 : HKIC, TYPE="cryo J1.3-15" XCM22 : HKIC, TYPE="cryo F1.3-14" XCM23 : HKIC, TYPE="cryo F1.3-15" XCM24 : HKIC, TYPE="cryo F1.3-16" XCM25 : HKIC, TYPE="cryo J1.3-17" XCM26 : HKIC, TYPE="cryo J1.3-01" XCM27 : HKIC, TYPE="cryo F1.3-02" XCM28 : HKIC, TYPE="cryo J1.3-03" XCM29 : HKIC, TYPE="cryo J1.3-18" XCM30 : HKIC, TYPE="cryo J1.3-16" XCM31 : HKIC, TYPE="cryo J1.3-19" XCM32 : HKIC, TYPE="cryo F1.3-03" XCM33 : HKIC, TYPE="cryo J1.3-05" XCM34 : HKIC, TYPE="cryo J1.3-09" XCM35 : HKIC, TYPE="cryo J1.3-07" XCM37 : HKIC, TYPE="cryo" XCM38 : HKIC, TYPE="cryo" XCM39 : HKIC, TYPE="cryo" XCM40 : HKIC, TYPE="cryo" XCM41 : HKIC, TYPE="cryo" XCM42 : HKIC, TYPE="cryo" XCM43 : HKIC, TYPE="cryo" XCM44 : HKIC, TYPE="cryo" XCM45 : HKIC, TYPE="cryo" XCM46 : HKIC, TYPE="cryo" XCM47 : HKIC, TYPE="cryo" XCM48 : HKIC, TYPE="cryo" XCM49 : HKIC, TYPE="cryo" XCM50 : HKIC, TYPE="cryo" XCM51 : HKIC, TYPE="cryo" XCM52 : HKIC, TYPE="cryo" XCM53 : HKIC, TYPE="cryo" XCM54 : HKIC, TYPE="cryo" XCM55 : HKIC, TYPE="cryo" XCM56 : HKIC, TYPE="cryo" XCM57 : HKIC, TYPE="cryo" XCM58 : HKIC, TYPE="cryo" XCM59 : HKIC, TYPE="cryo" XCX01 : HKIC, TYPE="class-4" XCM00 : HKIC, TYPE="cryo" ! ============================================================================== ! YCORs ! ------------------------------------------------------------------------------ YCM01 : VKIC, TYPE="cryo F1.3-19" YCM02 : VKIC, TYPE="cryo J1.3-21" YCM03 : VKIC, TYPE="cryo J1.3-20" YCM04 : VKIC, TYPE="cryo F1.3-07" YCM05 : VKIC, TYPE="cryo J1.3-04" YCM06 : VKIC, TYPE="cryo F1.3-08" YCM07 : VKIC, TYPE="cryo J1.3-10" YCM08 : VKIC, TYPE="cryo F1.3-04" YCM09 : VKIC, TYPE="cryo J1.3-08" YCM10 : VKIC, TYPE="cryo F1.3-10" YCM11 : VKIC, TYPE="cryo F1.3-09" YCM12 : VKIC, TYPE="cryo J1.3-13" YCM13 : VKIC, TYPE="cryo F1.3-11" YCM14 : VKIC, TYPE="cryo J1.3-14" YCM15 : VKIC, TYPE="cryo F1.3-01" YCM16 : VKIC, TYPE="cryo F1.3-13" YCM17 : VKIC, TYPE="cryo J1.3-12" YCM18 : VKIC, TYPE="cryo J1.3-06" YCM19 : VKIC, TYPE="cryo F1.3-17" YCM20 : VKIC, TYPE="cryo F1.3-18" YCM21 : VKIC, TYPE="cryo J1.3-15" YCM22 : VKIC, TYPE="cryo F1.3-14" YCM23 : VKIC, TYPE="cryo F1.3-15" YCM24 : VKIC, TYPE="cryo F1.3-16" YCM25 : VKIC, TYPE="cryo J1.3-17" YCM26 : VKIC, TYPE="cryo J1.3-01" YCM27 : VKIC, TYPE="cryo F1.3-02" YCM28 : VKIC, TYPE="cryo J1.3-03" YCM29 : VKIC, TYPE="cryo J1.3-18" YCM30 : VKIC, TYPE="cryo J1.3-16" YCM31 : VKIC, TYPE="cryo J1.3-19" YCM32 : VKIC, TYPE="cryo F1.3-03" YCM33 : VKIC, TYPE="cryo J1.3-05" YCM34 : VKIC, TYPE="cryo J1.3-09" YCM35 : VKIC, TYPE="cryo J1.3-07" YCM37 : VKIC, TYPE="cryo" YCM38 : VKIC, TYPE="cryo" YCM39 : VKIC, TYPE="cryo" YCM40 : VKIC, TYPE="cryo" YCM41 : VKIC, TYPE="cryo" YCM42 : VKIC, TYPE="cryo" YCM43 : VKIC, TYPE="cryo" YCM44 : VKIC, TYPE="cryo" YCM45 : VKIC, TYPE="cryo" YCM46 : VKIC, TYPE="cryo" YCM47 : VKIC, TYPE="cryo" YCM48 : VKIC, TYPE="cryo" YCM49 : VKIC, TYPE="cryo" YCM50 : VKIC, TYPE="cryo" YCM51 : VKIC, TYPE="cryo" YCM52 : VKIC, TYPE="cryo" YCM53 : VKIC, TYPE="cryo" YCM54 : VKIC, TYPE="cryo" YCM55 : VKIC, TYPE="cryo" YCM56 : VKIC, TYPE="cryo" YCM57 : VKIC, TYPE="cryo" YCM58 : VKIC, TYPE="cryo" YCM59 : VKIC, TYPE="cryo" YCX02 : VKIC, TYPE="class-4" YCM00 : VKIC, TYPE="cryo" ! ============================================================================== ! MARK, etc. ! ------------------------------------------------------------------------------ CM01BEG : MARK ; CSP01 : INST ; CM01END : MARK CM02BEG : MARK ; CSP02 : INST ; CM02END : MARK CM03BEG : MARK ; CSP03 : INST ; CM03END : MARK CMH1BEG : MARK ; CSPH1 : INST ; CMH1END : MARK CMH2BEG : MARK ; CSPH2 : INST ; CMH2END : MARK CM04BEG : MARK ; CSP04 : INST ; CM04END : MARK CM05BEG : MARK ; CSP05 : INST ; CM05END : MARK CM06BEG : MARK ; CSP06 : INST ; CM06END : MARK CM07BEG : MARK ; CSP07 : INST ; CM07END : MARK CM08BEG : MARK ; CSP08 : INST ; CM08END : MARK CM09BEG : MARK ; CSP09 : INST ; CM09END : MARK CM10BEG : MARK ; CSP10 : INST ; CM10END : MARK CM11BEG : MARK ; CSP11 : INST ; CM11END : MARK CM12BEG : MARK ; CSP12 : INST ; CM12END : MARK CM13BEG : MARK ; CSP13 : INST ; CM13END : MARK CM14BEG : MARK ; CSP14 : INST ; CM14END : MARK CM15BEG : MARK ; CSP15 : INST ; CM15END : MARK CM16BEG : MARK ; CSP16 : INST ; CM16END : MARK CM17BEG : MARK ; CSP17 : INST ; CM17END : MARK CM18BEG : MARK ; CSP18 : INST ; CM18END : MARK CM19BEG : MARK ; CSP19 : INST ; CM19END : MARK CM20BEG : MARK ; CSP20 : INST ; CM20END : MARK CM21BEG : MARK ; CSP21 : INST ; CM21END : MARK CM22BEG : MARK ; CSP22 : INST ; CM22END : MARK CM23BEG : MARK ; CSP23 : INST ; CM23END : MARK CM24BEG : MARK ; CSP24 : INST ; CM24END : MARK CM25BEG : MARK ; CSP25 : INST ; CM25END : MARK CM26BEG : MARK ; CSP26 : INST ; CM26END : MARK CM27BEG : MARK ; CSP27 : INST ; CM27END : MARK CM28BEG : MARK ; CSP28 : INST ; CM28END : MARK CM29BEG : MARK ; CSP29 : INST ; CM29END : MARK CM30BEG : MARK ; CSP30 : INST ; CM30END : MARK CM31BEG : MARK ; CSP31 : INST ; CM31END : MARK CM32BEG : MARK ; CSP32 : INST ; CM32END : MARK CM33BEG : MARK ; CSP33 : INST ; CM33END : MARK CM34BEG : MARK ; CSP34 : INST ; CM34END : MARK CM35BEG : MARK ; CSP35 : INST ; CM35END : MARK CM37BEG : MARK ; CSP37 : INST ; CM37END : MARK CM38BEG : MARK ; CSP38 : INST ; CM38END : MARK CM39BEG : MARK ; CSP39 : INST ; CM39END : MARK CM40BEG : MARK ; CSP40 : INST ; CM40END : MARK CM41BEG : MARK ; CSP41 : INST ; CM41END : MARK CM42BEG : MARK ; CSP42 : INST ; CM42END : MARK CM43BEG : MARK ; CSP43 : INST ; CM43END : MARK CM44BEG : MARK ; CSP44 : INST ; CM44END : MARK CM45BEG : MARK ; CSP45 : INST ; CM45END : MARK CM46BEG : MARK ; CSP46 : INST ; CM46END : MARK CM47BEG : MARK ; CSP47 : INST ; CM47END : MARK CM48BEG : MARK ; CSP48 : INST ; CM48END : MARK CM49BEG : MARK ; CSP49 : INST ; CM49END : MARK CM50BEG : MARK ; CSP50 : INST ; CM50END : MARK CM51BEG : MARK ; CSP51 : INST ; CM51END : MARK CM52BEG : MARK ; CSP52 : INST ; CM52END : MARK CM53BEG : MARK ; CSP53 : INST ; CM53END : MARK CM54BEG : MARK ; CSP54 : INST ; CM54END : MARK CM55BEG : MARK ; CSP55 : INST ; CM55END : MARK CM56BEG : MARK ; CSP56 : INST ; CM56END : MARK CM57BEG : MARK ; CSP57 : INST ; CM57END : MARK CM58BEG : MARK ; CSP58 : INST ; CM58END : MARK CM59BEG : MARK ; CSP59 : INST ; CM59END : MARK CM00BEG : MARK ; CSP00 : INST ; CM00END : MARK BEAM0 : MARK !initial beam specified here HOMCM : MARK !cryomodule HOM absorber ASTRA : MARK !simulated Twiss from C. Papadopoulos here EC1 : MARK !u/s flange face FC1 : MARK !d/s flange face BLF1 : MARK !beamline flange VGL0Bd : MARK, TYPE="gauges" VPL0Bd : MARK, TYPE="differential" MSC0d : MARK !u/s flange face VVL0Bd : INST, TYPE="gate valve" !VVPG:L0B:0199 VVL1Bu : INST, TYPE="gate valve" !VVPG:L1B:0201 MSC1u : MARK !u/s flange face BLF2 : MARK !beamline flange FC2 : MARK !u/s flange face FC3 : MARK !d/s flange face BLF3 : MARK !beamline flange MSC1d : MARK !d/s flange face VVL1Bd : INST, TYPE="gate valve" !VVPG:L1B:H295 VVL2Bu : INST, TYPE="gate valve" !VVPG:L2B:0401 MSC2u : MARK !u/s flange face BLF4 : MARK !beamline flange FC4 : MARK !u/s flange face FC5 : MARK !d/s flange face BLF5 : MARK !beamline flange VTL1 : INST !Vertical Transfer Line MSC2d : MARK !d/s flange face VVL2Bd : INST, TYPE="gate valve" !VVPG:L2B:1593 VVL3Bu : INST, TYPE="gate valve" !VVPG:L3B:1601 MSC3u : MARK !u/s flange face VTL2 : INST !Vertical Transfer Line BLF6 : MARK !beamline flange FC6 : MARK !u/s flange face EC2 : MARK !d/s flange face BLF7 : MARK !beamline flange VGL3Bd : MARK, TYPE="gauges" MSC3d : MARK !d/s flange face VVL3Bd : INST, TYPE="gate valve" !VVPG:L3B:3594 VVL4Bu : INST, TYPE="gate valve" !VVPG:L4B:3601 MSC4u : MARK !u/s flange face BLF8 : MARK !beamline flange FC7 : MARK !u/s flange face VTL3 : INST !Vertical Transfer Line EC3 : MARK !d/s flange face BLF9 : MARK !beamline flange MSC4d : MARK !u/s flange face VVL4Bd : INST, TYPE="gate valve" !VVPG:L4B:5998 VVEXTd : INST, TYPE="gate valve" FCLEI : MARK !d/s flange face BLFLEI : MARK !beamline flange VGLEId : MARK VPLEId : MARK VVLEId : INST, TYPE="gate valve" MSCLEI : MARK !u/s flange face S10CROTCH : MARK !sector 10 adit "crotch" BEAM0LEI : MARK !initial LEI beam specified here ! ============================================================================== ! BEAMLINE ! ------------------------------------------------------------------------------ ! L1 CAVL011_full : LINE=(DCAVMAP,CAVL011,DCAVMAP) CAVL012_full : LINE=(DCAVMAP,CAVL012,DCAVMAP) CAVL013_full : LINE=(DCAVMAP,CAVL013,DCAVMAP) CAVL014_full : LINE=(DCAVMAP,CAVL014,DCAVMAP) CAVL015_full : LINE=(DCAVMAP,CAVL015a,CSP01,CAVL015b,DCAVMAP) CAVL016_full : LINE=(DCAVMAP,CAVL016,DCAVMAP) CAVL017_full : LINE=(DCAVMAP,CAVL017,DCAVMAP) CAVL018_full : LINE=(DCAVMAP,CAVL018,DCAVMAP) CAVL021_full : LINE=(DCAVMAP,CAVL021,DCAVMAP) CAVL022_full : LINE=(DCAVMAP,CAVL022,DCAVMAP) CAVL023_full : LINE=(DCAVMAP,CAVL023,DCAVMAP) CAVL024_full : LINE=(DCAVMAP,CAVL024,DCAVMAP) CAVL025_full : LINE=(DCAVMAP,CAVL025a,CSP02,CAVL025b,DCAVMAP) CAVL026_full : LINE=(DCAVMAP,CAVL026,DCAVMAP) CAVL027_full : LINE=(DCAVMAP,CAVL027,DCAVMAP) CAVL028_full : LINE=(DCAVMAP,CAVL028,DCAVMAP) CAVC011_full : LINE=(DHCAVMAP,CAVC011,DHCAVMAP) CAVC012_full : LINE=(DHCAVMAP,CAVC012a,CSPH1,CAVC012b,DHCAVMAP) CAVC013_full : LINE=(DHCAVMAP,CAVC013,DHCAVMAP) CAVC014_full : LINE=(DHCAVMAP,CAVC014,DHCAVMAP) CAVC015_full : LINE=(DHCAVMAP,CAVC015,DHCAVMAP) CAVC016_full : LINE=(DHCAVMAP,CAVC016,DHCAVMAP) CAVC017_full : LINE=(DHCAVMAP,CAVC017,DHCAVMAP) CAVC018_full : LINE=(DHCAVMAP,CAVC018,DHCAVMAP) CAVC021_full : LINE=(DHCAVMAP,CAVC021,DHCAVMAP) CAVC022_full : LINE=(DHCAVMAP,CAVC022a,CSPH2,CAVC022b,DHCAVMAP) CAVC023_full : LINE=(DHCAVMAP,CAVC023,DHCAVMAP) CAVC024_full : LINE=(DHCAVMAP,CAVC024,DHCAVMAP) CAVC025_full : LINE=(DHCAVMAP,CAVC025,DHCAVMAP) CAVC026_full : LINE=(DHCAVMAP,CAVC026,DHCAVMAP) CAVC027_full : LINE=(DHCAVMAP,CAVC027,DHCAVMAP) CAVC028_full : LINE=(DHCAVMAP,CAVC028,DHCAVMAP) ! L2 CAVL031_full : LINE=(DCAVMAP,CAVL031,DCAVMAP) CAVL032_full : LINE=(DCAVMAP,CAVL032,DCAVMAP) CAVL033_full : LINE=(DCAVMAP,CAVL033,DCAVMAP) CAVL034_full : LINE=(DCAVMAP,CAVL034,DCAVMAP) CAVL035_full : LINE=(DCAVMAP,CAVL035a,CSP03,CAVL035b,DCAVMAP) CAVL036_full : LINE=(DCAVMAP,CAVL036,DCAVMAP) CAVL037_full : LINE=(DCAVMAP,CAVL037,DCAVMAP) CAVL038_full : LINE=(DCAVMAP,CAVL038,DCAVMAP) CAVL041_full : LINE=(DCAVMAP,CAVL041,DCAVMAP) CAVL042_full : LINE=(DCAVMAP,CAVL042,DCAVMAP) CAVL043_full : LINE=(DCAVMAP,CAVL043,DCAVMAP) CAVL044_full : LINE=(DCAVMAP,CAVL044,DCAVMAP) CAVL045_full : LINE=(DCAVMAP,CAVL045a,CSP04,CAVL045b,DCAVMAP) CAVL046_full : LINE=(DCAVMAP,CAVL046,DCAVMAP) CAVL047_full : LINE=(DCAVMAP,CAVL047,DCAVMAP) CAVL048_full : LINE=(DCAVMAP,CAVL048,DCAVMAP) CAVL051_full : LINE=(DCAVMAP,CAVL051,DCAVMAP) CAVL052_full : LINE=(DCAVMAP,CAVL052,DCAVMAP) CAVL053_full : LINE=(DCAVMAP,CAVL053,DCAVMAP) CAVL054_full : LINE=(DCAVMAP,CAVL054,DCAVMAP) CAVL055_full : LINE=(DCAVMAP,CAVL055a,CSP05,CAVL055b,DCAVMAP) CAVL056_full : LINE=(DCAVMAP,CAVL056,DCAVMAP) CAVL057_full : LINE=(DCAVMAP,CAVL057,DCAVMAP) CAVL058_full : LINE=(DCAVMAP,CAVL058,DCAVMAP) CAVL061_full : LINE=(DCAVMAP,CAVL061,DCAVMAP) CAVL062_full : LINE=(DCAVMAP,CAVL062,DCAVMAP) CAVL063_full : LINE=(DCAVMAP,CAVL063,DCAVMAP) CAVL064_full : LINE=(DCAVMAP,CAVL064,DCAVMAP) CAVL065_full : LINE=(DCAVMAP,CAVL065a,CSP06,CAVL065b,DCAVMAP) CAVL066_full : LINE=(DCAVMAP,CAVL066,DCAVMAP) CAVL067_full : LINE=(DCAVMAP,CAVL067,DCAVMAP) CAVL068_full : LINE=(DCAVMAP,CAVL068,DCAVMAP) CAVL071_full : LINE=(DCAVMAP,CAVL071,DCAVMAP) CAVL072_full : LINE=(DCAVMAP,CAVL072,DCAVMAP) CAVL073_full : LINE=(DCAVMAP,CAVL073,DCAVMAP) CAVL074_full : LINE=(DCAVMAP,CAVL074,DCAVMAP) CAVL075_full : LINE=(DCAVMAP,CAVL075a,CSP07,CAVL075b,DCAVMAP) CAVL076_full : LINE=(DCAVMAP,CAVL076,DCAVMAP) CAVL077_full : LINE=(DCAVMAP,CAVL077,DCAVMAP) CAVL078_full : LINE=(DCAVMAP,CAVL078,DCAVMAP) CAVL081_full : LINE=(DCAVMAP,CAVL081,DCAVMAP) CAVL082_full : LINE=(DCAVMAP,CAVL082,DCAVMAP) CAVL083_full : LINE=(DCAVMAP,CAVL083,DCAVMAP) CAVL084_full : LINE=(DCAVMAP,CAVL084,DCAVMAP) CAVL085_full : LINE=(DCAVMAP,CAVL085a,CSP08,CAVL085b,DCAVMAP) CAVL086_full : LINE=(DCAVMAP,CAVL086,DCAVMAP) CAVL087_full : LINE=(DCAVMAP,CAVL087,DCAVMAP) CAVL088_full : LINE=(DCAVMAP,CAVL088,DCAVMAP) CAVL091_full : LINE=(DCAVMAP,CAVL091,DCAVMAP) CAVL092_full : LINE=(DCAVMAP,CAVL092,DCAVMAP) CAVL093_full : LINE=(DCAVMAP,CAVL093,DCAVMAP) CAVL094_full : LINE=(DCAVMAP,CAVL094,DCAVMAP) CAVL095_full : LINE=(DCAVMAP,CAVL095a,CSP09,CAVL095b,DCAVMAP) CAVL096_full : LINE=(DCAVMAP,CAVL096,DCAVMAP) CAVL097_full : LINE=(DCAVMAP,CAVL097,DCAVMAP) CAVL098_full : LINE=(DCAVMAP,CAVL098,DCAVMAP) CAVL101_full : LINE=(DCAVMAP,CAVL101,DCAVMAP) CAVL102_full : LINE=(DCAVMAP,CAVL102,DCAVMAP) CAVL103_full : LINE=(DCAVMAP,CAVL103,DCAVMAP) CAVL104_full : LINE=(DCAVMAP,CAVL104,DCAVMAP) CAVL105_full : LINE=(DCAVMAP,CAVL105a,CSP10,CAVL105b,DCAVMAP) CAVL106_full : LINE=(DCAVMAP,CAVL106,DCAVMAP) CAVL107_full : LINE=(DCAVMAP,CAVL107,DCAVMAP) CAVL108_full : LINE=(DCAVMAP,CAVL108,DCAVMAP) CAVL111_full : LINE=(DCAVMAP,CAVL111,DCAVMAP) CAVL112_full : LINE=(DCAVMAP,CAVL112,DCAVMAP) CAVL113_full : LINE=(DCAVMAP,CAVL113,DCAVMAP) CAVL114_full : LINE=(DCAVMAP,CAVL114,DCAVMAP) CAVL115_full : LINE=(DCAVMAP,CAVL115a,CSP11,CAVL115b,DCAVMAP) CAVL116_full : LINE=(DCAVMAP,CAVL116,DCAVMAP) CAVL117_full : LINE=(DCAVMAP,CAVL117,DCAVMAP) CAVL118_full : LINE=(DCAVMAP,CAVL118,DCAVMAP) CAVL121_full : LINE=(DCAVMAP,CAVL121,DCAVMAP) CAVL122_full : LINE=(DCAVMAP,CAVL122,DCAVMAP) CAVL123_full : LINE=(DCAVMAP,CAVL123,DCAVMAP) CAVL124_full : LINE=(DCAVMAP,CAVL124,DCAVMAP) CAVL125_full : LINE=(DCAVMAP,CAVL125a,CSP12,CAVL125b,DCAVMAP) CAVL126_full : LINE=(DCAVMAP,CAVL126,DCAVMAP) CAVL127_full : LINE=(DCAVMAP,CAVL127,DCAVMAP) CAVL128_full : LINE=(DCAVMAP,CAVL128,DCAVMAP) CAVL131_full : LINE=(DCAVMAP,CAVL131,DCAVMAP) CAVL132_full : LINE=(DCAVMAP,CAVL132,DCAVMAP) CAVL133_full : LINE=(DCAVMAP,CAVL133,DCAVMAP) CAVL134_full : LINE=(DCAVMAP,CAVL134,DCAVMAP) CAVL135_full : LINE=(DCAVMAP,CAVL135a,CSP13,CAVL135b,DCAVMAP) CAVL136_full : LINE=(DCAVMAP,CAVL136,DCAVMAP) CAVL137_full : LINE=(DCAVMAP,CAVL137,DCAVMAP) CAVL138_full : LINE=(DCAVMAP,CAVL138,DCAVMAP) CAVL141_full : LINE=(DCAVMAP,CAVL141,DCAVMAP) CAVL142_full : LINE=(DCAVMAP,CAVL142,DCAVMAP) CAVL143_full : LINE=(DCAVMAP,CAVL143,DCAVMAP) CAVL144_full : LINE=(DCAVMAP,CAVL144,DCAVMAP) CAVL145_full : LINE=(DCAVMAP,CAVL145a,CSP14,CAVL145b,DCAVMAP) CAVL146_full : LINE=(DCAVMAP,CAVL146,DCAVMAP) CAVL147_full : LINE=(DCAVMAP,CAVL147,DCAVMAP) CAVL148_full : LINE=(DCAVMAP,CAVL148,DCAVMAP) CAVL151_full : LINE=(DCAVMAP,CAVL151,DCAVMAP) CAVL152_full : LINE=(DCAVMAP,CAVL152,DCAVMAP) CAVL153_full : LINE=(DCAVMAP,CAVL153,DCAVMAP) CAVL154_full : LINE=(DCAVMAP,CAVL154,DCAVMAP) CAVL155_full : LINE=(DCAVMAP,CAVL155a,CSP15,CAVL155b,DCAVMAP) CAVL156_full : LINE=(DCAVMAP,CAVL156,DCAVMAP) CAVL157_full : LINE=(DCAVMAP,CAVL157,DCAVMAP) CAVL158_full : LINE=(DCAVMAP,CAVL158,DCAVMAP) ! L3 CAVL161_full : LINE=(DCAVMAP,CAVL161,DCAVMAP) CAVL162_full : LINE=(DCAVMAP,CAVL162,DCAVMAP) CAVL163_full : LINE=(DCAVMAP,CAVL163,DCAVMAP) CAVL164_full : LINE=(DCAVMAP,CAVL164,DCAVMAP) CAVL165_full : LINE=(DCAVMAP,CAVL165a,CSP16,CAVL165b,DCAVMAP) CAVL166_full : LINE=(DCAVMAP,CAVL166,DCAVMAP) CAVL167_full : LINE=(DCAVMAP,CAVL167,DCAVMAP) CAVL168_full : LINE=(DCAVMAP,CAVL168,DCAVMAP) CAVL171_full : LINE=(DCAVMAP,CAVL171,DCAVMAP) CAVL172_full : LINE=(DCAVMAP,CAVL172,DCAVMAP) CAVL173_full : LINE=(DCAVMAP,CAVL173,DCAVMAP) CAVL174_full : LINE=(DCAVMAP,CAVL174,DCAVMAP) CAVL175_full : LINE=(DCAVMAP,CAVL175a,CSP17,CAVL175b,DCAVMAP) CAVL176_full : LINE=(DCAVMAP,CAVL176,DCAVMAP) CAVL177_full : LINE=(DCAVMAP,CAVL177,DCAVMAP) CAVL178_full : LINE=(DCAVMAP,CAVL178,DCAVMAP) CAVL181_full : LINE=(DCAVMAP,CAVL181,DCAVMAP) CAVL182_full : LINE=(DCAVMAP,CAVL182,DCAVMAP) CAVL183_full : LINE=(DCAVMAP,CAVL183,DCAVMAP) CAVL184_full : LINE=(DCAVMAP,CAVL184,DCAVMAP) CAVL185_full : LINE=(DCAVMAP,CAVL185a,CSP18,CAVL185b,DCAVMAP) CAVL186_full : LINE=(DCAVMAP,CAVL186,DCAVMAP) CAVL187_full : LINE=(DCAVMAP,CAVL187,DCAVMAP) CAVL188_full : LINE=(DCAVMAP,CAVL188,DCAVMAP) CAVL191_full : LINE=(DCAVMAP,CAVL191,DCAVMAP) CAVL192_full : LINE=(DCAVMAP,CAVL192,DCAVMAP) CAVL193_full : LINE=(DCAVMAP,CAVL193,DCAVMAP) CAVL194_full : LINE=(DCAVMAP,CAVL194,DCAVMAP) CAVL195_full : LINE=(DCAVMAP,CAVL195a,CSP19,CAVL195b,DCAVMAP) CAVL196_full : LINE=(DCAVMAP,CAVL196,DCAVMAP) CAVL197_full : LINE=(DCAVMAP,CAVL197,DCAVMAP) CAVL198_full : LINE=(DCAVMAP,CAVL198,DCAVMAP) CAVL201_full : LINE=(DCAVMAP,CAVL201,DCAVMAP) CAVL202_full : LINE=(DCAVMAP,CAVL202,DCAVMAP) CAVL203_full : LINE=(DCAVMAP,CAVL203,DCAVMAP) CAVL204_full : LINE=(DCAVMAP,CAVL204,DCAVMAP) CAVL205_full : LINE=(DCAVMAP,CAVL205a,CSP20,CAVL205b,DCAVMAP) CAVL206_full : LINE=(DCAVMAP,CAVL206,DCAVMAP) CAVL207_full : LINE=(DCAVMAP,CAVL207,DCAVMAP) CAVL208_full : LINE=(DCAVMAP,CAVL208,DCAVMAP) CAVL211_full : LINE=(DCAVMAP,CAVL211,DCAVMAP) CAVL212_full : LINE=(DCAVMAP,CAVL212,DCAVMAP) CAVL213_full : LINE=(DCAVMAP,CAVL213,DCAVMAP) CAVL214_full : LINE=(DCAVMAP,CAVL214,DCAVMAP) CAVL215_full : LINE=(DCAVMAP,CAVL215a,CSP21,CAVL215b,DCAVMAP) CAVL216_full : LINE=(DCAVMAP,CAVL216,DCAVMAP) CAVL217_full : LINE=(DCAVMAP,CAVL217,DCAVMAP) CAVL218_full : LINE=(DCAVMAP,CAVL218,DCAVMAP) CAVL221_full : LINE=(DCAVMAP,CAVL221,DCAVMAP) CAVL222_full : LINE=(DCAVMAP,CAVL222,DCAVMAP) CAVL223_full : LINE=(DCAVMAP,CAVL223,DCAVMAP) CAVL224_full : LINE=(DCAVMAP,CAVL224,DCAVMAP) CAVL225_full : LINE=(DCAVMAP,CAVL225a,CSP22,CAVL225b,DCAVMAP) CAVL226_full : LINE=(DCAVMAP,CAVL226,DCAVMAP) CAVL227_full : LINE=(DCAVMAP,CAVL227,DCAVMAP) CAVL228_full : LINE=(DCAVMAP,CAVL228,DCAVMAP) CAVL231_full : LINE=(DCAVMAP,CAVL231,DCAVMAP) CAVL232_full : LINE=(DCAVMAP,CAVL232,DCAVMAP) CAVL233_full : LINE=(DCAVMAP,CAVL233,DCAVMAP) CAVL234_full : LINE=(DCAVMAP,CAVL234,DCAVMAP) CAVL235_full : LINE=(DCAVMAP,CAVL235a,CSP23,CAVL235b,DCAVMAP) CAVL236_full : LINE=(DCAVMAP,CAVL236,DCAVMAP) CAVL237_full : LINE=(DCAVMAP,CAVL237,DCAVMAP) CAVL238_full : LINE=(DCAVMAP,CAVL238,DCAVMAP) CAVL241_full : LINE=(DCAVMAP,CAVL241,DCAVMAP) CAVL242_full : LINE=(DCAVMAP,CAVL242,DCAVMAP) CAVL243_full : LINE=(DCAVMAP,CAVL243,DCAVMAP) CAVL244_full : LINE=(DCAVMAP,CAVL244,DCAVMAP) CAVL245_full : LINE=(DCAVMAP,CAVL245a,CSP24,CAVL245b,DCAVMAP) CAVL246_full : LINE=(DCAVMAP,CAVL246,DCAVMAP) CAVL247_full : LINE=(DCAVMAP,CAVL247,DCAVMAP) CAVL248_full : LINE=(DCAVMAP,CAVL248,DCAVMAP) CAVL251_full : LINE=(DCAVMAP,CAVL251,DCAVMAP) CAVL252_full : LINE=(DCAVMAP,CAVL252,DCAVMAP) CAVL253_full : LINE=(DCAVMAP,CAVL253,DCAVMAP) CAVL254_full : LINE=(DCAVMAP,CAVL254,DCAVMAP) CAVL255_full : LINE=(DCAVMAP,CAVL255a,CSP25,CAVL255b,DCAVMAP) CAVL256_full : LINE=(DCAVMAP,CAVL256,DCAVMAP) CAVL257_full : LINE=(DCAVMAP,CAVL257,DCAVMAP) CAVL258_full : LINE=(DCAVMAP,CAVL258,DCAVMAP) CAVL261_full : LINE=(DCAVMAP,CAVL261,DCAVMAP) CAVL262_full : LINE=(DCAVMAP,CAVL262,DCAVMAP) CAVL263_full : LINE=(DCAVMAP,CAVL263,DCAVMAP) CAVL264_full : LINE=(DCAVMAP,CAVL264,DCAVMAP) CAVL265_full : LINE=(DCAVMAP,CAVL265a,CSP26,CAVL265b,DCAVMAP) CAVL266_full : LINE=(DCAVMAP,CAVL266,DCAVMAP) CAVL267_full : LINE=(DCAVMAP,CAVL267,DCAVMAP) CAVL268_full : LINE=(DCAVMAP,CAVL268,DCAVMAP) CAVL271_full : LINE=(DCAVMAP,CAVL271,DCAVMAP) CAVL272_full : LINE=(DCAVMAP,CAVL272,DCAVMAP) CAVL273_full : LINE=(DCAVMAP,CAVL273,DCAVMAP) CAVL274_full : LINE=(DCAVMAP,CAVL274,DCAVMAP) CAVL275_full : LINE=(DCAVMAP,CAVL275a,CSP27,CAVL275b,DCAVMAP) CAVL276_full : LINE=(DCAVMAP,CAVL276,DCAVMAP) CAVL277_full : LINE=(DCAVMAP,CAVL277,DCAVMAP) CAVL278_full : LINE=(DCAVMAP,CAVL278,DCAVMAP) CAVL281_full : LINE=(DCAVMAP,CAVL281,DCAVMAP) CAVL282_full : LINE=(DCAVMAP,CAVL282,DCAVMAP) CAVL283_full : LINE=(DCAVMAP,CAVL283,DCAVMAP) CAVL284_full : LINE=(DCAVMAP,CAVL284,DCAVMAP) CAVL285_full : LINE=(DCAVMAP,CAVL285a,CSP28,CAVL285b,DCAVMAP) CAVL286_full : LINE=(DCAVMAP,CAVL286,DCAVMAP) CAVL287_full : LINE=(DCAVMAP,CAVL287,DCAVMAP) CAVL288_full : LINE=(DCAVMAP,CAVL288,DCAVMAP) CAVL291_full : LINE=(DCAVMAP,CAVL291,DCAVMAP) CAVL292_full : LINE=(DCAVMAP,CAVL292,DCAVMAP) CAVL293_full : LINE=(DCAVMAP,CAVL293,DCAVMAP) CAVL294_full : LINE=(DCAVMAP,CAVL294,DCAVMAP) CAVL295_full : LINE=(DCAVMAP,CAVL295a,CSP29,CAVL295b,DCAVMAP) CAVL296_full : LINE=(DCAVMAP,CAVL296,DCAVMAP) CAVL297_full : LINE=(DCAVMAP,CAVL297,DCAVMAP) CAVL298_full : LINE=(DCAVMAP,CAVL298,DCAVMAP) CAVL301_full : LINE=(DCAVMAP,CAVL301,DCAVMAP) CAVL302_full : LINE=(DCAVMAP,CAVL302,DCAVMAP) CAVL303_full : LINE=(DCAVMAP,CAVL303,DCAVMAP) CAVL304_full : LINE=(DCAVMAP,CAVL304,DCAVMAP) CAVL305_full : LINE=(DCAVMAP,CAVL305a,CSP30,CAVL305b,DCAVMAP) CAVL306_full : LINE=(DCAVMAP,CAVL306,DCAVMAP) CAVL307_full : LINE=(DCAVMAP,CAVL307,DCAVMAP) CAVL308_full : LINE=(DCAVMAP,CAVL308,DCAVMAP) CAVL311_full : LINE=(DCAVMAP,CAVL311,DCAVMAP) CAVL312_full : LINE=(DCAVMAP,CAVL312,DCAVMAP) CAVL313_full : LINE=(DCAVMAP,CAVL313,DCAVMAP) CAVL314_full : LINE=(DCAVMAP,CAVL314,DCAVMAP) CAVL315_full : LINE=(DCAVMAP,CAVL315a,CSP31,CAVL315b,DCAVMAP) CAVL316_full : LINE=(DCAVMAP,CAVL316,DCAVMAP) CAVL317_full : LINE=(DCAVMAP,CAVL317,DCAVMAP) CAVL318_full : LINE=(DCAVMAP,CAVL318,DCAVMAP) CAVL321_full : LINE=(DCAVMAP,CAVL321,DCAVMAP) CAVL322_full : LINE=(DCAVMAP,CAVL322,DCAVMAP) CAVL323_full : LINE=(DCAVMAP,CAVL323,DCAVMAP) CAVL324_full : LINE=(DCAVMAP,CAVL324,DCAVMAP) CAVL325_full : LINE=(DCAVMAP,CAVL325a,CSP32,CAVL325b,DCAVMAP) CAVL326_full : LINE=(DCAVMAP,CAVL326,DCAVMAP) CAVL327_full : LINE=(DCAVMAP,CAVL327,DCAVMAP) CAVL328_full : LINE=(DCAVMAP,CAVL328,DCAVMAP) CAVL331_full : LINE=(DCAVMAP,CAVL331,DCAVMAP) CAVL332_full : LINE=(DCAVMAP,CAVL332,DCAVMAP) CAVL333_full : LINE=(DCAVMAP,CAVL333,DCAVMAP) CAVL334_full : LINE=(DCAVMAP,CAVL334,DCAVMAP) CAVL335_full : LINE=(DCAVMAP,CAVL335a,CSP33,CAVL335b,DCAVMAP) CAVL336_full : LINE=(DCAVMAP,CAVL336,DCAVMAP) CAVL337_full : LINE=(DCAVMAP,CAVL337,DCAVMAP) CAVL338_full : LINE=(DCAVMAP,CAVL338,DCAVMAP) CAVL341_full : LINE=(DCAVMAP,CAVL341,DCAVMAP) CAVL342_full : LINE=(DCAVMAP,CAVL342,DCAVMAP) CAVL343_full : LINE=(DCAVMAP,CAVL343,DCAVMAP) CAVL344_full : LINE=(DCAVMAP,CAVL344,DCAVMAP) CAVL345_full : LINE=(DCAVMAP,CAVL345a,CSP34,CAVL345b,DCAVMAP) CAVL346_full : LINE=(DCAVMAP,CAVL346,DCAVMAP) CAVL347_full : LINE=(DCAVMAP,CAVL347,DCAVMAP) CAVL348_full : LINE=(DCAVMAP,CAVL348,DCAVMAP) CAVL351_full : LINE=(DCAVMAP,CAVL351,DCAVMAP) CAVL352_full : LINE=(DCAVMAP,CAVL352,DCAVMAP) CAVL353_full : LINE=(DCAVMAP,CAVL353,DCAVMAP) CAVL354_full : LINE=(DCAVMAP,CAVL354,DCAVMAP) CAVL355_full : LINE=(DCAVMAP,CAVL355a,CSP35,CAVL355b,DCAVMAP) CAVL356_full : LINE=(DCAVMAP,CAVL356,DCAVMAP) CAVL357_full : LINE=(DCAVMAP,CAVL357,DCAVMAP) CAVL358_full : LINE=(DCAVMAP,CAVL358,DCAVMAP) ! L4 CAVL371_full : LINE=(DCAVMAP,CAVL371,DCAVMAP) CAVL372_full : LINE=(DCAVMAP,CAVL372,DCAVMAP) CAVL373_full : LINE=(DCAVMAP,CAVL373,DCAVMAP) CAVL374_full : LINE=(DCAVMAP,CAVL374,DCAVMAP) CAVL375_full : LINE=(DCAVMAP,CAVL375a,CSP37,CAVL375b,DCAVMAP) CAVL376_full : LINE=(DCAVMAP,CAVL376,DCAVMAP) CAVL377_full : LINE=(DCAVMAP,CAVL377,DCAVMAP) CAVL378_full : LINE=(DCAVMAP,CAVL378,DCAVMAP) CAVL381_full : LINE=(DCAVMAP,CAVL381,DCAVMAP) CAVL382_full : LINE=(DCAVMAP,CAVL382,DCAVMAP) CAVL383_full : LINE=(DCAVMAP,CAVL383,DCAVMAP) CAVL384_full : LINE=(DCAVMAP,CAVL384,DCAVMAP) CAVL385_full : LINE=(DCAVMAP,CAVL385a,CSP38,CAVL385b,DCAVMAP) CAVL386_full : LINE=(DCAVMAP,CAVL386,DCAVMAP) CAVL387_full : LINE=(DCAVMAP,CAVL387,DCAVMAP) CAVL388_full : LINE=(DCAVMAP,CAVL388,DCAVMAP) CAVL391_full : LINE=(DCAVMAP,CAVL391,DCAVMAP) CAVL392_full : LINE=(DCAVMAP,CAVL392,DCAVMAP) CAVL393_full : LINE=(DCAVMAP,CAVL393,DCAVMAP) CAVL394_full : LINE=(DCAVMAP,CAVL394,DCAVMAP) CAVL395_full : LINE=(DCAVMAP,CAVL395a,CSP39,CAVL395b,DCAVMAP) CAVL396_full : LINE=(DCAVMAP,CAVL396,DCAVMAP) CAVL397_full : LINE=(DCAVMAP,CAVL397,DCAVMAP) CAVL398_full : LINE=(DCAVMAP,CAVL398,DCAVMAP) CAVL401_full : LINE=(DCAVMAP,CAVL401,DCAVMAP) CAVL402_full : LINE=(DCAVMAP,CAVL402,DCAVMAP) CAVL403_full : LINE=(DCAVMAP,CAVL403,DCAVMAP) CAVL404_full : LINE=(DCAVMAP,CAVL404,DCAVMAP) CAVL405_full : LINE=(DCAVMAP,CAVL405a,CSP40,CAVL405b,DCAVMAP) CAVL406_full : LINE=(DCAVMAP,CAVL406,DCAVMAP) CAVL407_full : LINE=(DCAVMAP,CAVL407,DCAVMAP) CAVL408_full : LINE=(DCAVMAP,CAVL408,DCAVMAP) CAVL411_full : LINE=(DCAVMAP,CAVL411,DCAVMAP) CAVL412_full : LINE=(DCAVMAP,CAVL412,DCAVMAP) CAVL413_full : LINE=(DCAVMAP,CAVL413,DCAVMAP) CAVL414_full : LINE=(DCAVMAP,CAVL414,DCAVMAP) CAVL415_full : LINE=(DCAVMAP,CAVL415a,CSP41,CAVL415b,DCAVMAP) CAVL416_full : LINE=(DCAVMAP,CAVL416,DCAVMAP) CAVL417_full : LINE=(DCAVMAP,CAVL417,DCAVMAP) CAVL418_full : LINE=(DCAVMAP,CAVL418,DCAVMAP) CAVL421_full : LINE=(DCAVMAP,CAVL421,DCAVMAP) CAVL422_full : LINE=(DCAVMAP,CAVL422,DCAVMAP) CAVL423_full : LINE=(DCAVMAP,CAVL423,DCAVMAP) CAVL424_full : LINE=(DCAVMAP,CAVL424,DCAVMAP) CAVL425_full : LINE=(DCAVMAP,CAVL425a,CSP42,CAVL425b,DCAVMAP) CAVL426_full : LINE=(DCAVMAP,CAVL426,DCAVMAP) CAVL427_full : LINE=(DCAVMAP,CAVL427,DCAVMAP) CAVL428_full : LINE=(DCAVMAP,CAVL428,DCAVMAP) CAVL431_full : LINE=(DCAVMAP,CAVL431,DCAVMAP) CAVL432_full : LINE=(DCAVMAP,CAVL432,DCAVMAP) CAVL433_full : LINE=(DCAVMAP,CAVL433,DCAVMAP) CAVL434_full : LINE=(DCAVMAP,CAVL434,DCAVMAP) CAVL435_full : LINE=(DCAVMAP,CAVL435a,CSP43,CAVL435b,DCAVMAP) CAVL436_full : LINE=(DCAVMAP,CAVL436,DCAVMAP) CAVL437_full : LINE=(DCAVMAP,CAVL437,DCAVMAP) CAVL438_full : LINE=(DCAVMAP,CAVL438,DCAVMAP) CAVL441_full : LINE=(DCAVMAP,CAVL441,DCAVMAP) CAVL442_full : LINE=(DCAVMAP,CAVL442,DCAVMAP) CAVL443_full : LINE=(DCAVMAP,CAVL443,DCAVMAP) CAVL444_full : LINE=(DCAVMAP,CAVL444,DCAVMAP) CAVL445_full : LINE=(DCAVMAP,CAVL445a,CSP44,CAVL445b,DCAVMAP) CAVL446_full : LINE=(DCAVMAP,CAVL446,DCAVMAP) CAVL447_full : LINE=(DCAVMAP,CAVL447,DCAVMAP) CAVL448_full : LINE=(DCAVMAP,CAVL448,DCAVMAP) CAVL451_full : LINE=(DCAVMAP,CAVL451,DCAVMAP) CAVL452_full : LINE=(DCAVMAP,CAVL452,DCAVMAP) CAVL453_full : LINE=(DCAVMAP,CAVL453,DCAVMAP) CAVL454_full : LINE=(DCAVMAP,CAVL454,DCAVMAP) CAVL455_full : LINE=(DCAVMAP,CAVL455a,CSP45,CAVL455b,DCAVMAP) CAVL456_full : LINE=(DCAVMAP,CAVL456,DCAVMAP) CAVL457_full : LINE=(DCAVMAP,CAVL457,DCAVMAP) CAVL458_full : LINE=(DCAVMAP,CAVL458,DCAVMAP) CAVL461_full : LINE=(DCAVMAP,CAVL461,DCAVMAP) CAVL462_full : LINE=(DCAVMAP,CAVL462,DCAVMAP) CAVL463_full : LINE=(DCAVMAP,CAVL463,DCAVMAP) CAVL464_full : LINE=(DCAVMAP,CAVL464,DCAVMAP) CAVL465_full : LINE=(DCAVMAP,CAVL465a,CSP46,CAVL465b,DCAVMAP) CAVL466_full : LINE=(DCAVMAP,CAVL466,DCAVMAP) CAVL467_full : LINE=(DCAVMAP,CAVL467,DCAVMAP) CAVL468_full : LINE=(DCAVMAP,CAVL468,DCAVMAP) CAVL471_full : LINE=(DCAVMAP,CAVL471,DCAVMAP) CAVL472_full : LINE=(DCAVMAP,CAVL472,DCAVMAP) CAVL473_full : LINE=(DCAVMAP,CAVL473,DCAVMAP) CAVL474_full : LINE=(DCAVMAP,CAVL474,DCAVMAP) CAVL475_full : LINE=(DCAVMAP,CAVL475a,CSP47,CAVL475b,DCAVMAP) CAVL476_full : LINE=(DCAVMAP,CAVL476,DCAVMAP) CAVL477_full : LINE=(DCAVMAP,CAVL477,DCAVMAP) CAVL478_full : LINE=(DCAVMAP,CAVL478,DCAVMAP) CAVL481_full : LINE=(DCAVMAP,CAVL481,DCAVMAP) CAVL482_full : LINE=(DCAVMAP,CAVL482,DCAVMAP) CAVL483_full : LINE=(DCAVMAP,CAVL483,DCAVMAP) CAVL484_full : LINE=(DCAVMAP,CAVL484,DCAVMAP) CAVL485_full : LINE=(DCAVMAP,CAVL485a,CSP48,CAVL485b,DCAVMAP) CAVL486_full : LINE=(DCAVMAP,CAVL486,DCAVMAP) CAVL487_full : LINE=(DCAVMAP,CAVL487,DCAVMAP) CAVL488_full : LINE=(DCAVMAP,CAVL488,DCAVMAP) CAVL491_full : LINE=(DCAVMAP,CAVL491,DCAVMAP) CAVL492_full : LINE=(DCAVMAP,CAVL492,DCAVMAP) CAVL493_full : LINE=(DCAVMAP,CAVL493,DCAVMAP) CAVL494_full : LINE=(DCAVMAP,CAVL494,DCAVMAP) CAVL495_full : LINE=(DCAVMAP,CAVL495a,CSP49,CAVL495b,DCAVMAP) CAVL496_full : LINE=(DCAVMAP,CAVL496,DCAVMAP) CAVL497_full : LINE=(DCAVMAP,CAVL497,DCAVMAP) CAVL498_full : LINE=(DCAVMAP,CAVL498,DCAVMAP) CAVL501_full : LINE=(DCAVMAP,CAVL501,DCAVMAP) CAVL502_full : LINE=(DCAVMAP,CAVL502,DCAVMAP) CAVL503_full : LINE=(DCAVMAP,CAVL503,DCAVMAP) CAVL504_full : LINE=(DCAVMAP,CAVL504,DCAVMAP) CAVL505_full : LINE=(DCAVMAP,CAVL505a,CSP50,CAVL505b,DCAVMAP) CAVL506_full : LINE=(DCAVMAP,CAVL506,DCAVMAP) CAVL507_full : LINE=(DCAVMAP,CAVL507,DCAVMAP) CAVL508_full : LINE=(DCAVMAP,CAVL508,DCAVMAP) CAVL511_full : LINE=(DCAVMAP,CAVL511,DCAVMAP) CAVL512_full : LINE=(DCAVMAP,CAVL512,DCAVMAP) CAVL513_full : LINE=(DCAVMAP,CAVL513,DCAVMAP) CAVL514_full : LINE=(DCAVMAP,CAVL514,DCAVMAP) CAVL515_full : LINE=(DCAVMAP,CAVL515a,CSP51,CAVL515b,DCAVMAP) CAVL516_full : LINE=(DCAVMAP,CAVL516,DCAVMAP) CAVL517_full : LINE=(DCAVMAP,CAVL517,DCAVMAP) CAVL518_full : LINE=(DCAVMAP,CAVL518,DCAVMAP) CAVL521_full : LINE=(DCAVMAP,CAVL521,DCAVMAP) CAVL522_full : LINE=(DCAVMAP,CAVL522,DCAVMAP) CAVL523_full : LINE=(DCAVMAP,CAVL523,DCAVMAP) CAVL524_full : LINE=(DCAVMAP,CAVL524,DCAVMAP) CAVL525_full : LINE=(DCAVMAP,CAVL525a,CSP52,CAVL525b,DCAVMAP) CAVL526_full : LINE=(DCAVMAP,CAVL526,DCAVMAP) CAVL527_full : LINE=(DCAVMAP,CAVL527,DCAVMAP) CAVL528_full : LINE=(DCAVMAP,CAVL528,DCAVMAP) CAVL531_full : LINE=(DCAVMAP,CAVL531,DCAVMAP) CAVL532_full : LINE=(DCAVMAP,CAVL532,DCAVMAP) CAVL533_full : LINE=(DCAVMAP,CAVL533,DCAVMAP) CAVL534_full : LINE=(DCAVMAP,CAVL534,DCAVMAP) CAVL535_full : LINE=(DCAVMAP,CAVL535a,CSP53,CAVL535b,DCAVMAP) CAVL536_full : LINE=(DCAVMAP,CAVL536,DCAVMAP) CAVL537_full : LINE=(DCAVMAP,CAVL537,DCAVMAP) CAVL538_full : LINE=(DCAVMAP,CAVL538,DCAVMAP) CAVL541_full : LINE=(DCAVMAP,CAVL541,DCAVMAP) CAVL542_full : LINE=(DCAVMAP,CAVL542,DCAVMAP) CAVL543_full : LINE=(DCAVMAP,CAVL543,DCAVMAP) CAVL544_full : LINE=(DCAVMAP,CAVL544,DCAVMAP) CAVL545_full : LINE=(DCAVMAP,CAVL545a,CSP54,CAVL545b,DCAVMAP) CAVL546_full : LINE=(DCAVMAP,CAVL546,DCAVMAP) CAVL547_full : LINE=(DCAVMAP,CAVL547,DCAVMAP) CAVL548_full : LINE=(DCAVMAP,CAVL548,DCAVMAP) CAVL551_full : LINE=(DCAVMAP,CAVL551,DCAVMAP) CAVL552_full : LINE=(DCAVMAP,CAVL552,DCAVMAP) CAVL553_full : LINE=(DCAVMAP,CAVL553,DCAVMAP) CAVL554_full : LINE=(DCAVMAP,CAVL554,DCAVMAP) CAVL555_full : LINE=(DCAVMAP,CAVL555a,CSP55,CAVL555b,DCAVMAP) CAVL556_full : LINE=(DCAVMAP,CAVL556,DCAVMAP) CAVL557_full : LINE=(DCAVMAP,CAVL557,DCAVMAP) CAVL558_full : LINE=(DCAVMAP,CAVL558,DCAVMAP) CAVL561_full : LINE=(DCAVMAP,CAVL561,DCAVMAP) CAVL562_full : LINE=(DCAVMAP,CAVL562,DCAVMAP) CAVL563_full : LINE=(DCAVMAP,CAVL563,DCAVMAP) CAVL564_full : LINE=(DCAVMAP,CAVL564,DCAVMAP) CAVL565_full : LINE=(DCAVMAP,CAVL565a,CSP56,CAVL565b,DCAVMAP) CAVL566_full : LINE=(DCAVMAP,CAVL566,DCAVMAP) CAVL567_full : LINE=(DCAVMAP,CAVL567,DCAVMAP) CAVL568_full : LINE=(DCAVMAP,CAVL568,DCAVMAP) CAVL571_full : LINE=(DCAVMAP,CAVL571,DCAVMAP) CAVL572_full : LINE=(DCAVMAP,CAVL572,DCAVMAP) CAVL573_full : LINE=(DCAVMAP,CAVL573,DCAVMAP) CAVL574_full : LINE=(DCAVMAP,CAVL574,DCAVMAP) CAVL575_full : LINE=(DCAVMAP,CAVL575a,CSP57,CAVL575b,DCAVMAP) CAVL576_full : LINE=(DCAVMAP,CAVL576,DCAVMAP) CAVL577_full : LINE=(DCAVMAP,CAVL577,DCAVMAP) CAVL578_full : LINE=(DCAVMAP,CAVL578,DCAVMAP) CAVL581_full : LINE=(DCAVMAP,CAVL581,DCAVMAP) CAVL582_full : LINE=(DCAVMAP,CAVL582,DCAVMAP) CAVL583_full : LINE=(DCAVMAP,CAVL583,DCAVMAP) CAVL584_full : LINE=(DCAVMAP,CAVL584,DCAVMAP) CAVL585_full : LINE=(DCAVMAP,CAVL585a,CSP58,CAVL585b,DCAVMAP) CAVL586_full : LINE=(DCAVMAP,CAVL586,DCAVMAP) CAVL587_full : LINE=(DCAVMAP,CAVL587,DCAVMAP) CAVL588_full : LINE=(DCAVMAP,CAVL588,DCAVMAP) CAVL591_full : LINE=(DCAVMAP,CAVL591,DCAVMAP) CAVL592_full : LINE=(DCAVMAP,CAVL592,DCAVMAP) CAVL593_full : LINE=(DCAVMAP,CAVL593,DCAVMAP) CAVL594_full : LINE=(DCAVMAP,CAVL594,DCAVMAP) CAVL595_full : LINE=(DCAVMAP,CAVL595a,CSP59,CAVL595b,DCAVMAP) CAVL596_full : LINE=(DCAVMAP,CAVL596,DCAVMAP) CAVL597_full : LINE=(DCAVMAP,CAVL597,DCAVMAP) CAVL598_full : LINE=(DCAVMAP,CAVL598,DCAVMAP) ! LEI CAVL001_full : LINE=(DCAVMAP,CAVL001,DCAVMAP) CAVL002_full : LINE=(DCAVMAP,CAVL002,DCAVMAP) CAVL003_full : LINE=(DCAVMAP,CAVL003,DCAVMAP) CAVL004_full : LINE=(DCAVMAP,CAVL004,DCAVMAP) CAVL005_full : LINE=(DCAVMAP,CAVL005a,CSP00,CAVL005b,DCAVMAP) CAVL006_full : LINE=(DCAVMAP,CAVL006,DCAVMAP) CAVL007_full : LINE=(DCAVMAP,CAVL007,DCAVMAP) CAVL008_full : LINE=(DCAVMAP,CAVL008,DCAVMAP) QCM01_full : LINE=(QCM01,XCM01,YCM01,QCM01) QCM02_full : LINE=(QCM02,XCM02,YCM02,QCM02) QCM03_full : LINE=(QCM03,XCM03,YCM03,QCM03) QCM04_full : LINE=(QCM04,XCM04,YCM04,QCM04) QCM05_full : LINE=(QCM05,XCM05,YCM05,QCM05) QCM06_full : LINE=(QCM06,XCM06,YCM06,QCM06) QCM07_full : LINE=(QCM07,XCM07,YCM07,QCM07) QCM08_full : LINE=(QCM08,XCM08,YCM08,QCM08) QCM09_full : LINE=(QCM09,XCM09,YCM09,QCM09) QCM10_full : LINE=(QCM10,XCM10,YCM10,QCM10) QCM11_full : LINE=(QCM11,XCM11,YCM11,QCM11) QCM12_full : LINE=(QCM12,XCM12,YCM12,QCM12) QCM13_full : LINE=(QCM13,XCM13,YCM13,QCM13) QCM14_full : LINE=(QCM14,XCM14,YCM14,QCM14) QCM15_full : LINE=(QCM15,XCM15,YCM15,QCM15) QCM16_full : LINE=(QCM16,XCM16,YCM16,QCM16) QCM17_full : LINE=(QCM17,XCM17,YCM17,QCM17) QCM18_full : LINE=(QCM18,XCM18,YCM18,QCM18) QCM19_full : LINE=(QCM19,XCM19,YCM19,QCM19) QCM20_full : LINE=(QCM20,XCM20,YCM20,QCM20) QCM21_full : LINE=(QCM21,XCM21,YCM21,QCM21) QCM22_full : LINE=(QCM22,XCM22,YCM22,QCM22) QCM23_full : LINE=(QCM23,XCM23,YCM23,QCM23) QCM24_full : LINE=(QCM24,XCM24,YCM24,QCM24) QCM25_full : LINE=(QCM25,XCM25,YCM25,QCM25) QCM26_full : LINE=(QCM26,XCM26,YCM26,QCM26) QCM27_full : LINE=(QCM27,XCM27,YCM27,QCM27) QCM28_full : LINE=(QCM28,XCM28,YCM28,QCM28) QCM29_full : LINE=(QCM29,XCM29,YCM29,QCM29) QCM30_full : LINE=(QCM30,XCM30,YCM30,QCM30) QCM31_full : LINE=(QCM31,XCM31,YCM31,QCM31) QCM32_full : LINE=(QCM32,XCM32,YCM32,QCM32) QCM33_full : LINE=(QCM33,XCM33,YCM33,QCM33) QCM34_full : LINE=(QCM34,XCM34,YCM34,QCM34) QCM35_full : LINE=(QCM35,XCM35,YCM35,QCM35) QCM37_full : LINE=(QCM37,XCM37,YCM37,QCM37) QCM38_full : LINE=(QCM38,XCM38,YCM38,QCM38) QCM39_full : LINE=(QCM39,XCM39,YCM39,QCM39) QCM40_full : LINE=(QCM40,XCM40,YCM40,QCM40) QCM41_full : LINE=(QCM41,XCM41,YCM41,QCM41) QCM42_full : LINE=(QCM42,XCM42,YCM42,QCM42) QCM43_full : LINE=(QCM43,XCM43,YCM43,QCM43) QCM44_full : LINE=(QCM44,XCM44,YCM44,QCM44) QCM45_full : LINE=(QCM45,XCM45,YCM45,QCM45) QCM46_full : LINE=(QCM46,XCM46,YCM46,QCM46) QCM47_full : LINE=(QCM47,XCM47,YCM47,QCM47) QCM48_full : LINE=(QCM48,XCM48,YCM48,QCM48) QCM49_full : LINE=(QCM49,XCM49,YCM49,QCM49) QCM50_full : LINE=(QCM50,XCM50,YCM50,QCM50) QCM51_full : LINE=(QCM51,XCM51,YCM51,QCM51) QCM52_full : LINE=(QCM52,XCM52,YCM52,QCM52) QCM53_full : LINE=(QCM53,XCM53,YCM53,QCM53) QCM54_full : LINE=(QCM54,XCM54,YCM54,QCM54) QCM55_full : LINE=(QCM55,XCM55,YCM55,QCM55) QCM56_full : LINE=(QCM56,XCM56,YCM56,QCM56) QCM57_full : LINE=(QCM57,XCM57,YCM57,QCM57) QCM58_full : LINE=(QCM58,XCM58,YCM58,QCM58) QCM59_full : LINE=(QCM59,XCM59,YCM59,QCM59) QX01_full : LINE=(QX01,BPMX01,QX01) QX02_full : LINE=(QX02,BPMX02,QX02) QCM00_full : LINE=(QCM00,XCM00,YCM00,QCM00) ! L0 CM01 : LINE=(CM01BEG,DCM1,& CAVL011_full,DCM2,CAVL012_full,DCM2,CAVL013_full,DCM2,CAVL014_full,DCM2,& CAVL015_full,DCM2,CAVL016_full,DCM2,CAVL017_full,DCM2,CAVL018_full,DCM3,& CMB01,DCM4a,BEAM0,DCM4b,QCM01_full,DCM5,CM01END) ! L1 CM02 : LINE=(CM02BEG,DCM1,& CAVL021_full,DCM2,CAVL022_full,DCM2,CAVL023_full,DCM2,CAVL024_full,DCM2,& CAVL025_full,DCM2,CAVL026_full,DCM2,CAVL027_full,DCM2,CAVL028_full,DCM3,& CMB02,DCM4,QCM02_full,DCM5,CM02END) CM03 : LINE=(CM03BEG,DCM1,& CAVL031_full,DCM2,CAVL032_full,DCM2,CAVL033_full,DCM2,CAVL034_full,DCM2,& CAVL035_full,DCM2,CAVL036_full,DCM2,CAVL037_full,DCM2,CAVL038_full,DCM3,& CMB03,DCM4,QCM03_full,DCM5,CM03END) CMH1 : LINE=(CMH1BEG,DCMH0,& CAVC011_full,DCMH2,CAVC012_full,DCMH2,CAVC013_full,DCMH2,& CAVC014_full,DCMH2,CAVC015_full,DCMH2,CAVC016_full,DCMH2,& CAVC017_full,DCMH2,CAVC018_full,DCMH3,CMBH1,DCMH4,& CMH1END) CMH2 : LINE=(CMH2BEG,DCMH1,& CAVC021_full,DCMH2,CAVC022_full,DCMH2,CAVC023_full,DCMH2,& CAVC024_full,DCMH2,CAVC025_full,DCMH2,CAVC026_full,DCMH2,& CAVC027_full,DCMH2,CAVC028_full,DCMH3,CMBH2,DCMH4,& CMH2END) ! L2 CM04 : LINE=(CM04BEG,DCM1,& CAVL041_full,DCM2,CAVL042_full,DCM2,CAVL043_full,DCM2,CAVL044_full,DCM2,& CAVL045_full,DCM2,CAVL046_full,DCM2,CAVL047_full,DCM2,CAVL048_full,DCM3,& CMB04,DCM4,QCM04_full,DCM5,CM04END) CM05 : LINE=(CM05BEG,DCM1,& CAVL051_full,DCM2,CAVL052_full,DCM2,CAVL053_full,DCM2,CAVL054_full,DCM2,& CAVL055_full,DCM2,CAVL056_full,DCM2,CAVL057_full,DCM2,CAVL058_full,DCM3,& CMB05,DCM4,QCM05_full,DCM5,CM05END) CM06 : LINE=(CM06BEG,DCM1,& CAVL061_full,DCM2,CAVL062_full,DCM2,CAVL063_full,DCM2,CAVL064_full,DCM2,& CAVL065_full,DCM2,CAVL066_full,DCM2,CAVL067_full,DCM2,CAVL068_full,DCM3,& CMB06,DCM4,QCM06_full,DCM5,CM06END) CM07 : LINE=(CM07BEG,DCM1,& CAVL071_full,DCM2,CAVL072_full,DCM2,CAVL073_full,DCM2,CAVL074_full,DCM2,& CAVL075_full,DCM2,CAVL076_full,DCM2,CAVL077_full,DCM2,CAVL078_full,DCM3,& CMB07,DCM4,QCM07_full,DCM5,CM07END) CM08 : LINE=(CM08BEG,DCM1,& CAVL081_full,DCM2,CAVL082_full,DCM2,CAVL083_full,DCM2,CAVL084_full,DCM2,& CAVL085_full,DCM2,CAVL086_full,DCM2,CAVL087_full,DCM2,CAVL088_full,DCM3,& CMB08,DCM4,QCM08_full,DCM5,CM08END) CM09 : LINE=(CM09BEG,DCM1,& CAVL091_full,DCM2,CAVL092_full,DCM2,CAVL093_full,DCM2,CAVL094_full,DCM2,& CAVL095_full,DCM2,CAVL096_full,DCM2,CAVL097_full,DCM2,CAVL098_full,DCM3,& CMB09,DCM4,QCM09_full,DCM5,CM09END) CM10 : LINE=(CM10BEG,DCM1,& CAVL101_full,DCM2,CAVL102_full,DCM2,CAVL103_full,DCM2,CAVL104_full,DCM2,& CAVL105_full,DCM2,CAVL106_full,DCM2,CAVL107_full,DCM2,CAVL108_full,DCM3,& CMB10,DCM4,QCM10_full,DCM5,CM10END) CM11 : LINE=(CM11BEG,DCM1,& CAVL111_full,DCM2,CAVL112_full,DCM2,CAVL113_full,DCM2,CAVL114_full,DCM2,& CAVL115_full,DCM2,CAVL116_full,DCM2,CAVL117_full,DCM2,CAVL118_full,DCM3,& CMB11,DCM4,QCM11_full,DCM5,CM11END) CM12 : LINE=(CM12BEG,DCM1,& CAVL121_full,DCM2,CAVL122_full,DCM2,CAVL123_full,DCM2,CAVL124_full,DCM2,& CAVL125_full,DCM2,CAVL126_full,DCM2,CAVL127_full,DCM2,CAVL128_full,DCM3,& CMB12,DCM4,QCM12_full,DCM5,CM12END) CM13 : LINE=(CM13BEG,DCM1,& CAVL131_full,DCM2,CAVL132_full,DCM2,CAVL133_full,DCM2,CAVL134_full,DCM2,& CAVL135_full,DCM2,CAVL136_full,DCM2,CAVL137_full,DCM2,CAVL138_full,DCM3,& CMB13,DCM4,QCM13_full,DCM5,CM13END) CM14 : LINE=(CM14BEG,DCM1,& CAVL141_full,DCM2,CAVL142_full,DCM2,CAVL143_full,DCM2,CAVL144_full,DCM2,& CAVL145_full,DCM2,CAVL146_full,DCM2,CAVL147_full,DCM2,CAVL148_full,DCM3,& CMB14,DCM4,QCM14_full,DCM5,CM14END) CM15 : LINE=(CM15BEG,DCM1,& CAVL151_full,DCM2,CAVL152_full,DCM2,CAVL153_full,DCM2,CAVL154_full,DCM2,& CAVL155_full,DCM2,CAVL156_full,DCM2,CAVL157_full,DCM2,CAVL158_full,DCM3,& CMB15,DCM4,QCM15_full,DCM5,CM15END) ! L3 CM16 : LINE=(CM16BEG,DCM1,& CAVL161_full,DCM2,CAVL162_full,DCM2,CAVL163_full,DCM2,CAVL164_full,DCM2,& CAVL165_full,DCM2,CAVL166_full,DCM2,CAVL167_full,DCM2,CAVL168_full,DCM3,& CMB16,DCM4,QCM16_full,DCM5,CM16END) CM17 : LINE=(CM17BEG,DCM1,& CAVL171_full,DCM2,CAVL172_full,DCM2,CAVL173_full,DCM2,CAVL174_full,DCM2,& CAVL175_full,DCM2,CAVL176_full,DCM2,CAVL177_full,DCM2,CAVL178_full,DCM3,& CMB17,DCM4,QCM17_full,DCM5,CM17END) CM18 : LINE=(CM18BEG,DCM1,& CAVL181_full,DCM2,CAVL182_full,DCM2,CAVL183_full,DCM2,CAVL184_full,DCM2,& CAVL185_full,DCM2,CAVL186_full,DCM2,CAVL187_full,DCM2,CAVL188_full,DCM3,& CMB18,DCM4,QCM18_full,DCM5,CM18END) CM19 : LINE=(CM19BEG,DCM1,& CAVL191_full,DCM2,CAVL192_full,DCM2,CAVL193_full,DCM2,CAVL194_full,DCM2,& CAVL195_full,DCM2,CAVL196_full,DCM2,CAVL197_full,DCM2,CAVL198_full,DCM3,& CMB19,DCM4,QCM19_full,DCM5,CM19END) CM20 : LINE=(CM20BEG,DCM1,& CAVL201_full,DCM2,CAVL202_full,DCM2,CAVL203_full,DCM2,CAVL204_full,DCM2,& CAVL205_full,DCM2,CAVL206_full,DCM2,CAVL207_full,DCM2,CAVL208_full,DCM3,& CMB20,DCM4,QCM20_full,DCM5,CM20END) CM21 : LINE=(CM21BEG,DCM1,& CAVL211_full,DCM2,CAVL212_full,DCM2,CAVL213_full,DCM2,CAVL214_full,DCM2,& CAVL215_full,DCM2,CAVL216_full,DCM2,CAVL217_full,DCM2,CAVL218_full,DCM3,& CMB21,DCM4,QCM21_full,DCM5,CM21END) CM22 : LINE=(CM22BEG,DCM1,& CAVL221_full,DCM2,CAVL222_full,DCM2,CAVL223_full,DCM2,CAVL224_full,DCM2,& CAVL225_full,DCM2,CAVL226_full,DCM2,CAVL227_full,DCM2,CAVL228_full,DCM3,& CMB22,DCM4,QCM22_full,DCM5,CM22END) CM23 : LINE=(CM23BEG,DCM1,& CAVL231_full,DCM2,CAVL232_full,DCM2,CAVL233_full,DCM2,CAVL234_full,DCM2,& CAVL235_full,DCM2,CAVL236_full,DCM2,CAVL237_full,DCM2,CAVL238_full,DCM3,& CMB23,DCM4,QCM23_full,DCM5,CM23END) CM24 : LINE=(CM24BEG,DCM1,& CAVL241_full,DCM2,CAVL242_full,DCM2,CAVL243_full,DCM2,CAVL244_full,DCM2,& CAVL245_full,DCM2,CAVL246_full,DCM2,CAVL247_full,DCM2,CAVL248_full,DCM3,& CMB24,DCM4,QCM24_full,DCM5,CM24END) CM25 : LINE=(CM25BEG,DCM1,& CAVL251_full,DCM2,CAVL252_full,DCM2,CAVL253_full,DCM2,CAVL254_full,DCM2,& CAVL255_full,DCM2,CAVL256_full,DCM2,CAVL257_full,DCM2,CAVL258_full,DCM3,& CMB25,DCM4,QCM25_full,DCM5,CM25END) CM26 : LINE=(CM26BEG,DCM1,& CAVL261_full,DCM2,CAVL262_full,DCM2,CAVL263_full,DCM2,CAVL264_full,DCM2,& CAVL265_full,DCM2,CAVL266_full,DCM2,CAVL267_full,DCM2,CAVL268_full,DCM3,& CMB26,DCM4,QCM26_full,DCM5,CM26END) CM27 : LINE=(CM27BEG,DCM1,& CAVL271_full,DCM2,CAVL272_full,DCM2,CAVL273_full,DCM2,CAVL274_full,DCM2,& CAVL275_full,DCM2,CAVL276_full,DCM2,CAVL277_full,DCM2,CAVL278_full,DCM3,& CMB27,DCM4,QCM27_full,DCM5,CM27END) CM28 : LINE=(CM28BEG,DCM1,& CAVL281_full,DCM2,CAVL282_full,DCM2,CAVL283_full,DCM2,CAVL284_full,DCM2,& CAVL285_full,DCM2,CAVL286_full,DCM2,CAVL287_full,DCM2,CAVL288_full,DCM3,& CMB28,DCM4,QCM28_full,DCM5,CM28END) CM29 : LINE=(CM29BEG,DCM1,& CAVL291_full,DCM2,CAVL292_full,DCM2,CAVL293_full,DCM2,CAVL294_full,DCM2,& CAVL295_full,DCM2,CAVL296_full,DCM2,CAVL297_full,DCM2,CAVL298_full,DCM3,& CMB29,DCM4,QCM29_full,DCM5,CM29END) CM30 : LINE=(CM30BEG,DCM1,& CAVL301_full,DCM2,CAVL302_full,DCM2,CAVL303_full,DCM2,CAVL304_full,DCM2,& CAVL305_full,DCM2,CAVL306_full,DCM2,CAVL307_full,DCM2,CAVL308_full,DCM3,& CMB30,DCM4,QCM30_full,DCM5,CM30END) CM31 : LINE=(CM31BEG,DCM1,& CAVL311_full,DCM2,CAVL312_full,DCM2,CAVL313_full,DCM2,CAVL314_full,DCM2,& CAVL315_full,DCM2,CAVL316_full,DCM2,CAVL317_full,DCM2,CAVL318_full,DCM3,& CMB31,DCM4,QCM31_full,DCM5,CM31END) CM32 : LINE=(CM32BEG,DCM1,& CAVL321_full,DCM2,CAVL322_full,DCM2,CAVL323_full,DCM2,CAVL324_full,DCM2,& CAVL325_full,DCM2,CAVL326_full,DCM2,CAVL327_full,DCM2,CAVL328_full,DCM3,& CMB32,DCM4,QCM32_full,DCM5,CM32END) CM33 : LINE=(CM33BEG,DCM1,& CAVL331_full,DCM2,CAVL332_full,DCM2,CAVL333_full,DCM2,CAVL334_full,DCM2,& CAVL335_full,DCM2,CAVL336_full,DCM2,CAVL337_full,DCM2,CAVL338_full,DCM3,& CMB33,DCM4,QCM33_full,DCM5,CM33END) CM34 : LINE=(CM34BEG,DCM1,& CAVL341_full,DCM2,CAVL342_full,DCM2,CAVL343_full,DCM2,CAVL344_full,DCM2,& CAVL345_full,DCM2,CAVL346_full,DCM2,CAVL347_full,DCM2,CAVL348_full,DCM3,& CMB34,DCM4,QCM34_full,DCM5,CM34END) CM35 : LINE=(CM35BEG,DCM1,& CAVL351_full,DCM2,CAVL352_full,DCM2,CAVL353_full,DCM2,CAVL354_full,DCM2,& CAVL355_full,DCM2,CAVL356_full,DCM2,CAVL357_full,DCM2,CAVL358_full,DCM3,& CMB35,DCM4,QCM35_full,DCM5,CM35END) ! L4 CM37 : LINE=(CM37BEG,DCM1,& CAVL371_full,DCM2,CAVL372_full,DCM2,CAVL373_full,DCM2,CAVL374_full,DCM2,& CAVL375_full,DCM2,CAVL376_full,DCM2,CAVL377_full,DCM2,CAVL378_full,DCM3,& CMB37,DCM4,QCM37_full,DCM5,CM37END) CM38 : LINE=(CM38BEG,DCM1,& CAVL381_full,DCM2,CAVL382_full,DCM2,CAVL383_full,DCM2,CAVL384_full,DCM2,& CAVL385_full,DCM2,CAVL386_full,DCM2,CAVL387_full,DCM2,CAVL388_full,DCM3,& CMB38,DCM4,QCM38_full,DCM5,CM38END) CM39 : LINE=(CM39BEG,DCM1,& CAVL391_full,DCM2,CAVL392_full,DCM2,CAVL393_full,DCM2,CAVL394_full,DCM2,& CAVL395_full,DCM2,CAVL396_full,DCM2,CAVL397_full,DCM2,CAVL398_full,DCM3,& CMB39,DCM4,QCM39_full,DCM5,CM39END) CM40 : LINE=(CM40BEG,DCM1,& CAVL401_full,DCM2,CAVL402_full,DCM2,CAVL403_full,DCM2,CAVL404_full,DCM2,& CAVL405_full,DCM2,CAVL406_full,DCM2,CAVL407_full,DCM2,CAVL408_full,DCM3,& CMB40,DCM4,QCM40_full,DCM5,CM40END) CM41 : LINE=(CM41BEG,DCM1,& CAVL411_full,DCM2,CAVL412_full,DCM2,CAVL413_full,DCM2,CAVL414_full,DCM2,& CAVL415_full,DCM2,CAVL416_full,DCM2,CAVL417_full,DCM2,CAVL418_full,DCM3,& CMB41,DCM4,QCM41_full,DCM5,CM41END) CM42 : LINE=(CM42BEG,DCM1,& CAVL421_full,DCM2,CAVL422_full,DCM2,CAVL423_full,DCM2,CAVL424_full,DCM2,& CAVL425_full,DCM2,CAVL426_full,DCM2,CAVL427_full,DCM2,CAVL428_full,DCM3,& CMB42,DCM4,QCM42_full,DCM5,CM42END) CM43 : LINE=(CM43BEG,DCM1,& CAVL431_full,DCM2,CAVL432_full,DCM2,CAVL433_full,DCM2,CAVL434_full,DCM2,& CAVL435_full,DCM2,CAVL436_full,DCM2,CAVL437_full,DCM2,CAVL438_full,DCM3,& CMB43,DCM4,QCM43_full,DCM5,CM43END) CM44 : LINE=(CM44BEG,DCM1,& CAVL441_full,DCM2,CAVL442_full,DCM2,CAVL443_full,DCM2,CAVL444_full,DCM2,& CAVL445_full,DCM2,CAVL446_full,DCM2,CAVL447_full,DCM2,CAVL448_full,DCM3,& CMB44,DCM4,QCM44_full,DCM5,CM44END) CM45 : LINE=(CM45BEG,DCM1,& CAVL451_full,DCM2,CAVL452_full,DCM2,CAVL453_full,DCM2,CAVL454_full,DCM2,& CAVL455_full,DCM2,CAVL456_full,DCM2,CAVL457_full,DCM2,CAVL458_full,DCM3,& CMB45,DCM4,QCM45_full,DCM5,CM45END) CM46 : LINE=(CM46BEG,DCM1,& CAVL461_full,DCM2,CAVL462_full,DCM2,CAVL463_full,DCM2,CAVL464_full,DCM2,& CAVL465_full,DCM2,CAVL466_full,DCM2,CAVL467_full,DCM2,CAVL468_full,DCM3,& CMB46,DCM4,QCM46_full,DCM5,CM46END) CM47 : LINE=(CM47BEG,DCM1,& CAVL471_full,DCM2,CAVL472_full,DCM2,CAVL473_full,DCM2,CAVL474_full,DCM2,& CAVL475_full,DCM2,CAVL476_full,DCM2,CAVL477_full,DCM2,CAVL478_full,DCM3,& CMB47,DCM4,QCM47_full,DCM5,CM47END) CM48 : LINE=(CM48BEG,DCM1,& CAVL481_full,DCM2,CAVL482_full,DCM2,CAVL483_full,DCM2,CAVL484_full,DCM2,& CAVL485_full,DCM2,CAVL486_full,DCM2,CAVL487_full,DCM2,CAVL488_full,DCM3,& CMB48,DCM4,QCM48_full,DCM5,CM48END) CM49 : LINE=(CM49BEG,DCM1,& CAVL491_full,DCM2,CAVL492_full,DCM2,CAVL493_full,DCM2,CAVL494_full,DCM2,& CAVL495_full,DCM2,CAVL496_full,DCM2,CAVL497_full,DCM2,CAVL498_full,DCM3,& CMB49,DCM4,QCM49_full,DCM5,CM49END) CM50 : LINE=(CM50BEG,DCM1,& CAVL501_full,DCM2,CAVL502_full,DCM2,CAVL503_full,DCM2,CAVL504_full,DCM2,& CAVL505_full,DCM2,CAVL506_full,DCM2,CAVL507_full,DCM2,CAVL508_full,DCM3,& CMB50,DCM4,QCM50_full,DCM5,CM50END) CM51 : LINE=(CM51BEG,DCM1,& CAVL511_full,DCM2,CAVL512_full,DCM2,CAVL513_full,DCM2,CAVL514_full,DCM2,& CAVL515_full,DCM2,CAVL516_full,DCM2,CAVL517_full,DCM2,CAVL518_full,DCM3,& CMB51,DCM4,QCM51_full,DCM5,CM51END) CM52 : LINE=(CM52BEG,DCM1,& CAVL521_full,DCM2,CAVL522_full,DCM2,CAVL523_full,DCM2,CAVL524_full,DCM2,& CAVL525_full,DCM2,CAVL526_full,DCM2,CAVL527_full,DCM2,CAVL528_full,DCM3,& CMB52,DCM4,QCM52_full,DCM5,CM52END) CM53 : LINE=(CM53BEG,DCM1,& CAVL531_full,DCM2,CAVL532_full,DCM2,CAVL533_full,DCM2,CAVL534_full,DCM2,& CAVL535_full,DCM2,CAVL536_full,DCM2,CAVL537_full,DCM2,CAVL538_full,DCM3,& CMB53,DCM4,QCM53_full,DCM5,CM53END) CM54 : LINE=(CM54BEG,DCM1,& CAVL541_full,DCM2,CAVL542_full,DCM2,CAVL543_full,DCM2,CAVL544_full,DCM2,& CAVL545_full,DCM2,CAVL546_full,DCM2,CAVL547_full,DCM2,CAVL548_full,DCM3,& CMB54,DCM4,QCM54_full,DCM5,CM54END) CM55 : LINE=(CM55BEG,DCM1,& CAVL551_full,DCM2,CAVL552_full,DCM2,CAVL553_full,DCM2,CAVL554_full,DCM2,& CAVL555_full,DCM2,CAVL556_full,DCM2,CAVL557_full,DCM2,CAVL558_full,DCM3,& CMB55,DCM4,QCM55_full,DCM5,CM55END) CM56 : LINE=(CM56BEG,DCM1,& CAVL561_full,DCM2,CAVL562_full,DCM2,CAVL563_full,DCM2,CAVL564_full,DCM2,& CAVL565_full,DCM2,CAVL566_full,DCM2,CAVL567_full,DCM2,CAVL568_full,DCM3,& CMB56,DCM4,QCM56_full,DCM5,CM56END) CM57 : LINE=(CM57BEG,DCM1,& CAVL571_full,DCM2,CAVL572_full,DCM2,CAVL573_full,DCM2,CAVL574_full,DCM2,& CAVL575_full,DCM2,CAVL576_full,DCM2,CAVL577_full,DCM2,CAVL578_full,DCM3,& CMB57,DCM4,QCM57_full,DCM5,CM57END) CM58 : LINE=(CM58BEG,DCM1,& CAVL581_full,DCM2,CAVL582_full,DCM2,CAVL583_full,DCM2,CAVL584_full,DCM2,& CAVL585_full,DCM2,CAVL586_full,DCM2,CAVL587_full,DCM2,CAVL588_full,DCM3,& CMB58,DCM4,QCM58_full,DCM5,CM58END) CM59 : LINE=(CM59BEG,DCM1,& CAVL591_full,DCM2,CAVL592_full,DCM2,CAVL593_full,DCM2,CAVL594_full,DCM2,& CAVL595_full,DCM2,CAVL596_full,DCM2,CAVL597_full,DCM2,CAVL598_full,DCM3,& CMB59,DCM4,QCM59_full,DCM5,CM59END) ! LEI CM00 : LINE=(CM00BEG,DCM1,& CAVL001_full,DCM2,CAVL002_full,DCM2,CAVL003_full,DCM2,CAVL004_full,DCM2,& CAVL005_full,DCM2,CAVL006_full,DCM2,CAVL007_full,DCM2,CAVL008_full,DCM3,& CMB00,DCM4a,BEAM0LEI,DCM4b,QCM00_full,DCM5,CM00END) ! linacs L0 : LINE=(BEGL0B,EC1,DCAP0u,& CM01,DCMCM1,HOMCM,DCAP0da,ASTRA,DCAP0db,FC1,& DMSC0da,BLF1,DMSC0db,VGL0Bd,DMSC0dc,VPL0Bd,DMSC0dd,MSC0d,VVL0Bd,& ENDL0B) L1 : LINE=(BEGL1B,& VVL1Bu,MSC1u,DMSC1ua,BLF2,DMSC1ub,FC2,DCAP1u,& CM02,DCMCM1,HOMCM,DCMCM2,& CM03,DCMCMH1,HOMCM,DCMCMH2,& CMH1,DCMHCMH1,HOMCM,DCMHCMH2,& CMH2,DCAP1d,FC3,& DMSC1da,BLF3,DMSC1db,MSC1d,VVL1Bd,& ENDL1B) L2 : LINE=(BEGL2B,& VVL2Bu,MSC2u,DMSC2ua,BLF4,DMSC2ub,FC4,DCAP2u,& CM04,DCMCM1,HOMCM,DCMCM2,& CM05,DCMCM1,HOMCM,DCMCM2,& CM06,DCMCM1,HOMCM,DCMCM2,& CM07,DCMCM1,HOMCM,DCMCM2,& CM08,DCMCM1,HOMCM,DCMCM2,& CM09,DCMCM1,HOMCM,DCMCM2,& CM10,DCMCM1,HOMCM,DCMCM2,& CM11,DCMCM1,HOMCM,DCMCM2,& CM12,DCMCM1,HOMCM,DCMCM2,& CM13,DCMCM1,HOMCM,DCMCM2,& CM14,DCMCM1,HOMCM,DCMCM2,& CM15,DCMCM1,HOMCM,DCAP2d,FC5,& DMSC2da,BLF5,DMSC2db,VTL1,DMSC2dc,MSC2d,VVL2Bd,& ENDL2B) L3 : LINE=(BEGL3B,& VVL3Bu,MSC3u,DMSC3ua,VTL2,DMSC3ub,BLF6,DMSC3uc,FC6,DCAP3u,& CM16,DCMCM1,HOMCM,DCMCM2,& CM17,DCMCM1,HOMCM,DCMCM2,& CM18,DCMCM1,HOMCM,DCMCM2,& CM19,DCMCM1,HOMCM,DCMCM2,& CM20,DCMCM1,HOMCM,DCMCM2,& CM21,DCMCM1,HOMCM,DCMCM2,& CM22,DCMCM1,HOMCM,DCMCM2,& CM23,DCMCM1,HOMCM,DCMCM2,& CM24,DCMCM1,HOMCM,DCMCM2,& CM25,DCMCM1,HOMCM,DCMCM2,DBREAK,& CM26,DCMCM1,HOMCM,DCMCM2,& CM27,DCMCM1,HOMCM,DCMCM2,& CM28,DCMCM1,HOMCM,DCMCM2,& CM29,DCMCM1,HOMCM,DCMCM2,& CM30,DCMCM1,HOMCM,DCMCM2,& CM31,DCMCM1,HOMCM,DCMCM2,& CM32,DCMCM1,HOMCM,DCMCM2,& CM33,DCMCM1,HOMCM,DCMCM2,& CM34,DCMCM1,HOMCM,DCMCM2,& CM35,DCMCM1,HOMCM,DCAP3d,EC2,& DMSC3da,BLF7,DMSC3db,VGL3Bd,DMSC3dc,MSC3d,VVL3Bd,& ENDL3B) BR3B : LINE=(BEGBR3B,& DSLOT36,DTEE,& ENDBR3B) L4 : LINE=(BEGL4B,& VVL4Bu,MSC4u,DMSC4ua,BLF8,DMSC4ub,FC7,& DCAP4ua,VTL3,DCAP4ub,& CM37,DCMCM1,HOMCM,DCMCM2,& CM38,DCMCM1,HOMCM,DCMCM2,& CM39,DCMCM1,HOMCM,DCMCM2,& CM40,DCMCM1,HOMCM,DCMCM2,& CM41,DCMCM1,HOMCM,DCMCM2,& CM42,DCMCM1,HOMCM,DCMCM2,& CM43,DCMCM1,HOMCM,DCMCM2,& CM44,DCMCM1,HOMCM,DCMCM2,& CM45,DCMCM1,HOMCM,DCMCM2,& CM46,DCMCM1,HOMCM,DCMCM2,& CM47,DCMCM1,HOMCM,DCMCM2,& CM48,DCMCM1,HOMCM,DCMCM2,DBREAK,& CM49,DCMCM1,HOMCM,DCMCM2,& CM50,DCMCM1,HOMCM,DCMCM2,& CM51,DCMCM1,HOMCM,DCMCM2,& CM52,DCMCM1,HOMCM,DCMCM2,& CM53,DCMCM1,HOMCM,DCMCM2,& CM54,DCMCM1,HOMCM,DCMCM2,& CM55,DCMCM1,HOMCM,DCMCM2,& CM56,DCMCM1,HOMCM,DCMCM2,& CM57,DCMCM1,HOMCM,DCMCM2,& CM58,DCMCM1,HOMCM,DCMCM2,& CM59,DCMCM1,HOMCM,DCAP4d,EC3,& DMSC4da,BLF9,DMSC4db,MSC4d,VVL4Bd,& ENDL4B) ! linac extension COMMENT !simplified EXT : LINE=(BEGEXT,DX00,& QX01,QX01,DX01,& QX02,QX02,DX02,& ENDEXT) ENDCOMMENT !COMMENT !complete EXT : LINE=(BEGEXT,DX00,& QX01_full,DX01a,XCX01,DX01b,RFBX02,DX01c,& QX02_full,DX02a,YCX02,DX02b,S10CROTCH,DX02c,VVEXTd,& ENDEXT) !ENDCOMMENT ! L0LEI L0LEI : LINE=(BEGL0LEI,DCAP0u,& CM00,DCMCM1,HOMCM,DCAP0d2,FCLEI,DMSC0da,BLFLEI,& DMSC0db,VGLEId,DMSC0dc,VPLEId,DMSC0dd,MSCLEI,VVLEId,& ENDL0LEI) ! ============================================================================== ! coasting FODO ! ------------------------------------------------------------------------------ QFCMfodo1 : QUAD, L=Lcmq/2, APER=Rcmq, K1= KQCMfodo1 !L1 QF QDCMfodo1 : QUAD, L=Lcmq/2, APER=Rcmq, K1=-KQCMfodo1 !L1 QD QFCMfodo2 : QUAD, L=Lcmq/2, APER=Rcmq, K1= KQCMfodo2 !L2 QF QDCMfodo2 : QUAD, L=Lcmq/2, APER=Rcmq, K1=-KQCMfodo2 !L2 QD QFCMfodo3 : QUAD, L=Lcmq/2, APER=Rcmq, K1= KQCMfodo3 !L3 QF QDCMfodo3 : QUAD, L=Lcmq/2, APER=Rcmq, K1=-KQCMfodo3 !L3 QD QFCMfodo4 : QUAD, L=Lcmq/2, APER=Rcmq, K1= KQCMfodo4 !L4 QF QDCMfodo4 : QUAD, L=Lcmq/2, APER=Rcmq, K1=-KQCMfodo4 !L4 QD DCMfodo : DRIF, L=LDCMfodo CMfodo1 : LINE=(QFCMfodo1,DCMfodo,QDCMfodo1,QDCMfodo1,DCMfodo,QFCMfodo1) CMfodo2 : LINE=(QFCMfodo2,DCMfodo,QDCMfodo2,QDCMfodo2,DCMfodo,QFCMfodo2) CMfodo3 : LINE=(QFCMfodo3,DCMfodo,QDCMfodo3,QDCMfodo3,DCMfodo,QFCMfodo3) CMfodo4 : LINE=(QFCMfodo4,DCMfodo,QDCMfodo4,QDCMfodo4,DCMfodo,QFCMfodo4) ! ------------------------------------------------------------------------------ RETURN