! *** OPTICS=AD_ACCEL-12JAN22 *** ! LCLS2cu various parts upstream of BSY ! ============================================================================== ! Modification History ! ------------------------------------------------------------------------------ ! 08-NOV-2021, M. Woodley ! * defer BXKIK (decommissioned) at level 9 for Matlab model ! ------------------------------------------------------------------------------ ! 04-MAR-2021, M. Woodley ! * set FREQ=2856 for TCAV0 and TCAV3 ! ------------------------------------------------------------------------------ ! 31-AUG-2020, M. Woodley ! * set TYPE="type-4al" for YC21174, XC21175, XC21302, and YC21303 ! ------------------------------------------------------------------------------ ! 26-JUL-2019, M. Woodley ! * set L1 and L2 phases, and L1 X-band amplitude, per Y. Ding ! ------------------------------------------------------------------------------ ! 30-JAN-2019, M. Woodley ! * move area BEG/END MARKERs to common.xsif ! * DL1 becomes two areas (DL1_1 and DL1_2) ! * rename MRK/FIN MARKERs at BC1 and BC2 to proper area boundary names ! ------------------------------------------------------------------------------ ! 07-JAN-2019, M. Woodley ! * rename some LI21 correctors to avoid name conflicts with LCLS-II ! per T. Maxwell ! * define BC1 and BC2 bend angles (rather than B-fields) to allow constant ! R56 when energy changes ! * remove "52-line stuff" ! ------------------------------------------------------------------------------ ! 08-MAY-2017, M. Woodley ! * add 0.000001 m to DM19 to force Z=2059.732900 m at ZLIN04 and to line up ! sector boundaries; reduce DAQ17 by the same amount to compensate ! 01-MAR-2017, M. Woodley ! * WS24 is actually installed (per LCLS) ! ------------------------------------------------------------------------------ ! 23-NOV-2016, Y. Nosochkov ! * update KQ30801 value ! ------------------------------------------------------------------------------ ! 04-NOV-2016, M. Woodley ! * change "1.259Q3.5" to "1.26Q3.5" ! * change Everson-Tesla 2.362Q3.5 (r=30mm) to SigmaPhi 1.69Q3.4 (bore=43mm) ! * remove definition of DRIFT "DAQ6A" ! ------------------------------------------------------------------------------ ! 28-OCT-2014, M. Woodley ! * redefine drift DAQ17 to end at LI30 IV30-9 (Z=3042.005) ! ============================================================================== LSOL1 := 0.200 !needed for DL01a definition ! ============================================================================== ! Longitudinal misalignments observed after installation and difficult to fix: ! Added to MAD file (but not drawings) so that optics comes out right (1/11/07). ! ------------------------------------------------------------------------------ dz_QA11 := 3.42E-3 !quad is too far downstream when dz>0 dz_Q21201 :=-2.39E-3 !quad is too far downstream when dz>0 dz_Q21301 := 5.73E-3 !quad is too far downstream when dz>0 dz_QM14 := 2.17E-3 !quad is too far downstream when dz>0 dz_QM15 := 2.48E-3 !quad is too far downstream when dz>0 ! ============================================================================== ! LCAVs ! ------------------------------------------------------------------------------ ! global LCAV parameters DLWLX := 0.5948 !X-band structure length from input-coupler center to output-coupler center, each with tooling balls (m) DLWL10 := 3.0441 !"10 ft" (29 Sband wavelengths; 87 DLWG cavities) DLWL9 := 2.8692 !"9.41 ft" (27 1/3 Sband wavelengths; 82 DLWG cavities) DLWL7 := 2.1694 !"7 ft" (20 2/3 Sband wavelengths; 62 DLWG cavities) P25 := 1 !25% power factor P50 := SQRT(2) !50% power factor ! L0 energy profile (model the one 3-m L0b section only) L0phase := -1.1 !L0b S-band rf phase (deg) dEL0a := GeV2MeV*(E0i-E00) !total L0a energy gain (MeV) dEL0b := GeV2MeV*(Ei-E0i) !total L0b energy gain (MeV) PhiL0 := L0phase/360 !radians/2pi !gfac0 := 3.130139 !flange-to-flange length of dual-feed L0-a and L0-b RF structures [m] gfac0 := 3.095244 !flange-to-flange length (121.86" Oct. 18, '05) of dual-feed L0-a and L0-b RF structures [m] gradL0a := dEL0a/(gfac0*COS(PhiL0*TWOPI)) gradL0b := dEL0b/(gfac0*COS(PhiL0*TWOPI)) ! L1 energy profile L1phase := -21.5 !L1 S-band rf phase (deg) L1Xphase :=-160.0 !L1 X-band rf phase (deg) dEL1 := GeV2MeV*(EBC1-Ei) !total L1 energy gain (MeV) dEL1X := 20.0 !L1 X-band amplitude (MeV) PhiL1 := L1phase/360 !radians/2pi PhiL1X := L1Xphase/360 !radians/2pi gfac1 := P50*DLWL9+P25*DLWL9+P25*DLWL10 gradL1 := (dEL1-dEL1X*COS(PhiL1X*TWOPI))/(gfac1*COS(PhiL1*TWOPI)) !VALUE, gradL1 ! L2 energy profile L2phase := -33.5 !L2 rf phase (deg) dEL2 := GeV2MeV*(EBC2-EBC1) !total L2 energy gain (MeV) PhiL2 := L2phase/360 !radians/2pi gfac2 := 110*P25*DLWL10+1*P50*DLWL10 gradL2 := dEL2/(gfac2*COS(PhiL2*TWOPI)) !VALUE, gradL2 ! L3 energy profile L3phase := 0.0 !L3 rf phase (deg) dEL3 := GeV2MeV*(Ef-EBC2) !total L3 energy gain (MeV) PhiL3 := L3phase/360 !radians/2pi gfac3 := 161*P25*DLWL10+12*P50*DLWL10+3*P25*DLWL9+4*P25*DLWL7 gradL3 := 15.833405341033 !16.7 !LI25_LI26 !VALUE, gradL3 L1X___1 : LCAV, TYPE="X1_Xband", FREQ=XbandF, L=DLWLX/2, & DELTAE=dEL1X/2 , PHI0=PhiL1X L1X___2 : LCAV, TYPE="X1_Xband", FREQ=XbandF, L=DLWLX/2, & DELTAE=dEL1X/2 , PHI0=PhiL1X ! L0 sections L0a___1 : LCAV, TYPE="DUALFEED", FREQ=SbandF, L=0.0586460, & DELTAE=gradL0a*0.0586460, PHI0=PhiL0 L0a___2 : LCAV, TYPE="DUALFEED", FREQ=SbandF, L=0.1993540, & DELTAE=gradL0a*0.1993540, PHI0=PhiL0 L0a___3 : LCAV, TYPE="DUALFEED", FREQ=SbandF, L=0.6493198, & DELTAE=gradL0a*0.6493198, PHI0=PhiL0 L0a___4 : LCAV, TYPE="DUALFEED", FREQ=SbandF, L=0.6403022, & DELTAE=gradL0a*0.6403022, PHI0=PhiL0 L0a___5 : LCAV, TYPE="DUALFEED", FREQ=SbandF, L=1.1518464, & DELTAE=gradL0a*1.1518464, PHI0=PhiL0 L0a___6 : LCAV, TYPE="DUALFEED", FREQ=SbandF, L=0.3348566, & DELTAE=gradL0a*0.3348566, PHI0=PhiL0 L0a___7 : LCAV, TYPE="DUALFEED", FREQ=SbandF, L=0.0609190, & DELTAE=gradL0a*0.0609190, PHI0=PhiL0 L0b___1 : LCAV, TYPE="DUALFEED", FREQ=SbandF, L=0.0586460, & DELTAE=gradL0b*0.0586460, PHI0=PhiL0 L0b___2 : LCAV, TYPE="DUALFEED", FREQ=SbandF, L=0.3371281, & DELTAE=gradL0b*0.3371281, PHI0=PhiL0 L0b___3 : LCAV, TYPE="DUALFEED", FREQ=SbandF, L=1.1518479, & DELTAE=gradL0b*1.1518479, PHI0=PhiL0 L0b___4 : LCAV, TYPE="DUALFEED", FREQ=SbandF, L=1.1515630, & DELTAE=gradL0b*1.1515630, PHI0=PhiL0 L0b___5 : LCAV, TYPE="DUALFEED", FREQ=SbandF, L=0.3351400, & DELTAE=gradL0b*0.3351400, PHI0=PhiL0 L0b___6 : LCAV, TYPE="DUALFEED", FREQ=SbandF, L=0.0609190, & DELTAE=gradL0b*0.0609190, PHI0=PhiL0 FLNGa1 : MARK !upstream face of L0a entrance flange FLNGa2 : MARK !downstream face of L0a exit flange FLNGb1 : MARK !upstream face of L0b entrance flange FLNGb2 : MARK !downstream face of L0b exit flange ! transverse deflecting cavities !TCAV0 : DRIF, L=0.6680236/2 !flange-to-flange (then split in two) !TCAV3 : DRIF, L=2.438/2 TCAV0 : LCAV, TYPE="TRANS_DEFL", FREQ=2856, L=0.6680236/2 !flange-to-flange (then split in two) TCAV3 : LCAV, TYPE="TRANS_DEFL", FREQ=2856, L=2.438/2 ! decommissioned kicker magnet BXKIKa : SBEN, TYPE="@9,1.92K41.2", L=LKIK/2, HGAP=GKIK BXKIKb : SBEN, TYPE="@9,1.92K41.2", L=LKIK/2, HGAP=GKIK ! define unsplit SBENs for BMAD ... not used by MAD BXKIK : SBEN, TYPE="@9,1.92K41.2", L=LKIK, HGAP=GKIK ! ============================================================================== ! BENDs ! ------------------------------------------------------------------------------ ! global BEND parameters dLBh := 0.0144 !increase to lengthen BXH1-4 eff. length (m) LBh := 0.110+dLBh !5D3.9 "Z" length (m) laser-heater chicane bends approx. effective length (R. Carr, 01-AUG-05 -PE) GBh := 30E-3 !5D3.9 gap height (m) LB0 := 0.2032 !5D7.1 "Z" length (m) GB0 := 30E-3 !5D7.1 gap height (m) LB1 := 0.2032 !5D7.1 "Z" length (m) GB1 := 43.28E-3 !5D7.1 gap height (m) LB2 := 0.5490 !1D19.7 "Z" length (m) !changed from 0.540 m to 0.549 on Sep. 28, '07 based on magnetic measurements - PE GB2 := 33.35E-3 !1D19.7 gap height (m) !LB3 := 2.623 !4D102.36T effective length (m) !GB3 := 0.023 !4D102.36T gap height (m) !LVB := 1.025 !3D39 vertical bend effective length (m) !GVB := 0.034925 !vertical bend gap width (m) ! GTL !gun spectrometer from BXG to Faraday cup and dump ! === RBXG := 0.1963 !BXG bend radius (measured) [m] ABXG := 85.0*RADDEG !bend angle of BXG dipole [deg*RADDEG = rad] EBXG := 24.25*RADDEG !BXG pole-face rot. edge angle of BXG dipole [deg*RADDEG = rad] GBXG := 0.043 !BXG magnet full gap height (m) LBXG := RBXG*ABXG !path length of BXG dipole when ON (= R*theta) [m] !VALUE, LBXG BXGa : SBEN, TYPE="BXG", L=LBXG/2, HGAP=GBXG/2, ANGLE=ABXG/2, & E1=EBXG, FINT=0.492, E2=0, FINTX=0 !1st-half of gun spectrometer bend BXGb : SBEN, TYPE="BXG", L=LBXG/2, HGAP=GBXG/2, ANGLE=ABXG/2, & E1=0, FINT=0, E2=EBXG, FINTX=0.492 !2nd-half of gun spectrometer bend ! define unsplit SBENs for BMAD ... not used by MAD BXG : SBEN, TYPE="BXG", HGAP=GBXG/2, L=LBXG, ANGLE=ABXG, & E1=EBXG, FINT=0.492, E2=EBXG, FINTX=0.492 DXG0 : DRIF, L=RBXG*SIN(ABXG/2) !drift, w/BXG off, from BXG entrance face to its z-projected center !DXGA : SBEN, L=1E-9/2, ANGLE=0/2 !1st-half of gun-spec bend (set to ~zero length and strength, with longitudinal position as bend's center) !DXGB : SBEN, L=1E-9/2, ANGLE=0/2 !2nd-half of gun-spec bend (set to ~zero length and strength, with longitudinal position as bend's center) DBXG : DRIF, L=0.132618358755-1E-9 !replaces DXG0/DXGA/DXGB rQGx := 0.020 !QG quadrupole pole-tip radius [m] LQGx := 0.076 !QG quadrupole effective length [m] CQ01 : MULT, TYPE="QSOL", K1L=0 !correction quad in 1st solenoid at gun (nominally set to 0) SQ01 : MULT, TYPE="QSOL", K1L=0, T1 !correction skew-quad in 1st solenoid at gun (nominally set to 0) QG02 : QUAD, TYPE="QG", L=LQGx/2, APER=rQGx, K1=-35.485404325427 QG03 : QUAD, TYPE="QG", L=LQGx/2, APER=rQGx, K1= 80.16050904389 DGS1 : DRIF, L=0.1900-LQGx/2-20E-6-0.0155757 DGS2 : DRIF, L=(0.2300-LQGx)/2+20E-6 DGS3 : DRIF, L=(0.2300-LQGx)/2-20E-6 DGS4 : DRIF, L= 0.1680-LQGx/2-0.00283 DGS5 : DRIF, L= 0.0300-0.02271 DGS6 : DRIF, L= 0.0240-0.00402 DGS7 : DRIF, L= 0.05 XCG1 : HKIC,TYPE="class-G" XCG2 : HKIC,TYPE="class-G" YCG1 : VKIC,TYPE="class-G" YCG2 : VKIC,TYPE="class-G" BPMG1 : MONI, TYPE="25_um_res" CRG1 : INST !Cerenkov radiator bunch length monitor YAGG1 : PROF, TYPE="YAG" !6-MeV spectrometer screen FCG1 : INST !gun-spec. Faraday cup w/screen BXG_full : LINE=(BXGa,BXGb) QG02_full : LINE=(QG02,XCG1,YCG1,QG02) QG03_full : LINE=(QG03,XCG2,YCG2,QG03) GSPEC : LINE=(BEGGSPEC,& BXG_full,DGS1,& QG02_full,DGS2,BPMG1,DGS3,& QG03_full,DGS4,YAGG1,DGS5,CRG1,DGS6,FCG1,DGS7,DBMARK97,& ENDGSPEC) ! 135-MeV Spectrometer ! ==================== DX01A : SBEN, L=LB0/2, ANGLE=1E-9 !1st half of BX01 magnet switched off here DX01B : SBEN, L=LB0/2, ANGLE=1E-9 !2nd half of BX01 magnet switched off here DBX01a : DRIF, L=0.1016 !replaces DX01A DBX01b : DRIF, L=0.1016 !replaces DX01B LBS := 0.5435 !measured effective length along curved trajectory (m) GBS := 34E-3 !gap height (m) ABS := injdeg*RADDEG !injection line angle (rad) BXSEj := -7.29*RADDEG BXSa : SBEN, TYPE="BXS", L=LBS/2, HGAP=GBS/2, ANGLE=ABS/2, & E1=BXSEj, FINT=0.391, E2=0, FINTX=0 BXSb : SBEN, TYPE="BXS", L=LBS/2, HGAP=GBS/2, ANGLE=ABS/2, & E1=0, FINT=0, E2=BXSEj, FINTX=0.391 ! define unsplit SBENs for BMAD ... not used by MAD BXS : SBEN, TYPE="BXS", HGAP=GBS/2, L=LBS, ANGLE=ABS, & E1=BXSEj, FINT=0.391, E2=BXSEj, FINTX=0.391 KQS01 := 9.682244191676 KQS02 := -5.648980372134 QS01 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQS01 QS02 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQS02 DS0 : DRIF, L=0.5583996 DS0a : DRIF, L=0.1691504 DS0b : DRIF, L=0.4615/2 DS1a : DRIF, L=0.0890085 DS1b : DRIF, L=0.1451215 DS1c : DRIF, L=0.171796 DS1d : DRIF, L=0.251824 DS2 : DRIF, L=0.478250 DS3a : DRIF, L=0.199626 DS3b : DRIF, L=0.200374 DS4 : DRIF, L=0.287275 DS6a : DRIF, L=0.2575952 DS6b : DRIF, L=0.2273298-0.008205 DS7 : DRIF, L=0.3801874+0.008205-0.02 DS8 : DRIF, L=0.1976126+0.02 DS9 : DRIF, L=0.3378194 BPMS1 : MONI, TYPE="20_um_res" BPMS2 : MONI, TYPE="20_um_res" BPMS3 : MONI, TYPE="20_um_res" VVS1 : MARK !135-MeV spectrometer vacuum valve YAGS1 : PROF, TYPE="YAG" !1st 135-MeV spectrometer YAG-screen - center of device in MAD is defined as center of YAG crystal, not mirror IMS1 : IMON !135-MeV spectrometer toroid YAGS2 : PROF, TYPE="YAG" !2nd 135-MeV spectrometer YAG-screen - center of device in MAD is defined as center of YAG crystal, not mirror OTRS1 : PROF, TYPE="OTR" !135-MeV spectrometer OTR-screen SDMP : INST ! gun-spec. dump (exact location? - 11/09/05) XCS1 : HKIC,TYPE="class-1a" YCS1 : VKIC,TYPE="class-1a" XCS2 : HKIC,TYPE="class-1a" YCS2 : VKIC,TYPE="class-1a" BXS_full : LINE=(BXSa,BXSb) QS01_full : LINE=(QS01,BPMS2,QS01) QS02_full : LINE=(QS02,QS02) SCS1 : LINE=(XCS1,YCS1) SCS2 : LINE=(XCS2,YCS2) SPECBL : LINE=(BEGSPEC,& DBX01a,DBX01b,DS0,SCS1,DS0a,DS0b,DS1a,VVS1,DS1b,YAGS1,DS1c,BPMS1,DS1d,& BXS_full,DS2,& QS01_full,DS3a,SCS2,DS3b,& QS02_full,DS4,IMS1,DS6a,BPMS3,DS6b,YAGS2,DS7,OTRS1,DS8,DS9,SDMP,DBMARK98,& ENDSPEC) ! DL1 ! === ADL1 := injdeg*RADDEG !injection line angle (rad) AB0 := ADL1/2 !full bend angle (rad) LeffB0 := LB0*AB0/(2*SIN(AB0/2)) !full bend path length (m) AEB0 := AB0/2 !edge angles BX01a : SBEN, TYPE="5D7.1", L=LeffB0/2, HGAP=GB0/2, ANGLE=AB0/2, & E1=AEB0, FINT=0.45, FINTX=0 BX01b : SBEN, TYPE="5D7.1", L=LeffB0/2, HGAP=GB0/2, ANGLE=AB0/2, & E2=AEB0, FINT=0, FINTX=0.45 BX02a : SBEN, TYPE="5D7.1", L=LeffB0/2, HGAP=GB0/2, ANGLE=AB0/2, & E1=AEB0, FINT=0.45, FINTX=0 BX02b : SBEN, TYPE="5D7.1", L=LeffB0/2, HGAP=GB0/2, ANGLE=AB0/2, & E2=AEB0, FINT=0, FINTX=0.45 ! define unsplit SBENs for BMAD ... not used by MAD BX01 : SBEN, TYPE="5D7.1", HGAP=GB0/2, L=LeffB0, ANGLE=AB0, & E1=AEB0, FINT=0.45, E2=AEB0, FINTX=0.45 BX02 : SBEN, TYPE="5D7.1", HGAP=GB0/2, L=LeffB0, ANGLE=AB0, & E1=AEB0, FINT=0.45, E2=AEB0, FINTX=0.45 ! BC1 ! === AB11 := -0.093575352547 !full chicane bend angle (rad) (-0.086753564890323) RB11 := LB1/SIN(AB11) !bend radius (m) LB11 := RB11*AB11 !full chicane bend path length (m) BB11 := Brho1/RB11 !bend field (kG) (-3.83496008105) AB11S := ASIN((LB1/2)/RB11) !"short" half chicane bend angle (rad) LB11S := RB11*AB11S !"short" half chicane bend path length (m) AB11L := AB11-AB11S !"long" half chicane bend angle (rad) LB11L := RB11*AB11L !"long" half chicane bend path length (m) FB11 := 0.387 !fringe field integral ! BX11 gets an offset of 2.2 mm (theta*L/8) towards the wall ! BX12 gets an offset of 2.2 mm (theta*L/8) towards the aisle ! BX13 gets an offset of 2.2 mm (theta*L/8) towards the aisle ! BX14 gets an offset of 2.2 mm (theta*L/8) towards the wall BX11a : SBEN, TYPE="5D7.1", L=LB11S, ANGLE=+AB11S, HGAP=GB1/2, & E1=0, FINT=FB11, FINTX=0 BX11b : SBEN, TYPE="5D7.1", L=LB11L, ANGLE=+AB11L, HGAP=GB1/2, & FINT=0, E2=+AB11, FINTX=FB11 BX12a : SBEN, TYPE="5D7.1", L=LB11L, ANGLE=-AB11L, HGAP=GB1/2, & E1=-AB11, FINT=FB11, FINTX=0 BX12b : SBEN, TYPE="5D7.1", L=LB11S, ANGLE=-AB11S, HGAP=GB1/2, & FINT=0, E2=0, FINTX=FB11 BX13a : SBEN, TYPE="5D7.1", L=LB11S, ANGLE=-AB11S, HGAP=GB1/2, & E1=0, FINT=FB11, FINTX=0 BX13b : SBEN, TYPE="5D7.1", L=LB11L, ANGLE=-AB11L, HGAP=GB1/2, & FINT=0, E2=-AB11, FINTX=FB11 BX14a : SBEN, TYPE="5D7.1", L=LB11L, ANGLE=+AB11L, HGAP=GB1/2, & E1=+AB11, FINT=FB11, FINTX=0 BX14b : SBEN, TYPE="5D7.1", L=LB11S, ANGLE=+AB11S, HGAP=GB1/2, & FINT=0, E2=0, FINTX=FB11 ! define unsplit SBENs for BMAD ... not used by MAD BX11 : SBEN, TYPE="5D7.1", HGAP=GB1/2, L=LB11, ANGLE=+AB11, & E1=0, FINT=FB11, E2=+AB11, FINTX=FB11 BX12 : SBEN, TYPE="5D7.1", HGAP=GB1/2, L=LB11, ANGLE=-AB11, & E1=-AB11, FINT=FB11, E2=0, FINTX=FB11 BX13 : SBEN, TYPE="5D7.1", HGAP=GB1/2, L=LB11, ANGLE=-AB11, & E1=0, FINT=FB11, E2=-AB11, FINTX=FB11 BX14 : SBEN, TYPE="5D7.1", HGAP=GB1/2, L=LB11, ANGLE=+AB11, & E1=+AB11, FINT=FB11, E2=0, FINTX=FB11 ! magnet-to-magnet path lengths LD11 := 2.434900 !outer bend-to-bend "Z" distance (m) LD11o := LD11/COS(AB11) !outer bend-to-bend path length (m) (minus ~0.15 m 9/21/04) LD11a := 0.261301 !"Z" distance upstream of SQ13 (m) LD11b := LD11-LD11a-0.16*COS(AB11) !"Z" distance downstream of SQ13 (m) LD11oa := LD11a/COS(AB11) !path length upstream of SQ13 LD11ob := LD11b/COS(AB11) !path length downstream of SQ13 ! BC2 ! === AB21 := -0.036971323962 !full chicane bend angle (rad) RB21 := LB2/SIN(AB21) !bend radius (m) LB21 := RB21*AB21 !full chicane bend path length (m) BB21 := Brho2/RB21 !bend field (kG) (-11.229050051323) AB21S := ASIN((LB2/2)/RB21) !"short" half chicane bend angle (rad) LB21S := RB21*AB21S !"short" half chicane bend path length (m) AB21L := AB21-AB21S !"long" half chicane bend angle (rad) LB21L := RB21*AB21L !"long" half chicane bend path length (m) FB21 := 0.633 !fringe field integral ! BX21 gets an offset of ~2.3 mm (theta*L/8) towards the wall ! BX22 gets an offset of ~2.3 mm (theta*L/8) towards the aisle ! BX23 gets an offset of ~2.3 mm (theta*L/8) towards the aisle ! BX24 gets an offset of ~2.3 mm (theta*L/8) towards the wall BX21a : SBEN, TYPE="1D19.7", L=LB21S, ANGLE=+AB21S, HGAP=GB2/2, & E1=0, FINT=FB21, FINTX=0 BX21b : SBEN, TYPE="1D19.7", L=LB21L, ANGLE=+AB21L, HGAP=GB2/2, & FINT=0, E2=+AB21, FINTX=FB21 BX22a : SBEN, TYPE="1D19.7", L=LB21L, ANGLE=-AB21L, HGAP=GB2/2, & E1=-AB21, FINT=FB21, FINTX=0 BX22b : SBEN, TYPE="1D19.7", L=LB21S, ANGLE=-AB21S, HGAP=GB2/2, & FINT=0, E2=0, FINTX=FB21 BX23a : SBEN, TYPE="1D19.7", L=LB21S, ANGLE=-AB21S, HGAP=GB2/2, & E1=0, FINT=FB21, FINTX=0 BX23b : SBEN, TYPE="1D19.7", L=LB21L, ANGLE=-AB21L, HGAP=GB2/2, & FINT=0, E2=-AB21, FINTX=FB21 BX24a : SBEN, TYPE="1D19.7", L=LB21L, ANGLE=+AB21L, HGAP=GB2/2, & E1=+AB21, FINT=FB21, FINTX=0 BX24b : SBEN, TYPE="1D19.7", L=LB21S, ANGLE=+AB21S, HGAP=GB2/2, & FINT=0, E2=0, FINTX=FB21 ! define unsplit SBENs for BMAD ... not used by MAD BX21 : SBEN, TYPE="1D19.7", HGAP=GB2/2, L=LB21, ANGLE=+AB21, & E1=0, FINT=FB21, E2=+AB21, FINTX=FB21 BX22 : SBEN, TYPE="1D19.7", HGAP=GB2/2, L=LB21, ANGLE=-AB21, & E1=-AB21, FINT=FB21, E2=0, FINTX=FB21 BX23 : SBEN, TYPE="1D19.7", HGAP=GB2/2, L=LB21, ANGLE=-AB21, & E1=0, FINT=FB21, E2=-AB21, FINTX=FB21 BX24 : SBEN, TYPE="1D19.7", HGAP=GB2/2, L=LB21, ANGLE=+AB21, & E1=+AB21, FINT=FB21, E2=0, FINTX=FB21 ! magnet-to-magnet path lengths LD21i := 1.0-2*0.1 !inner bend-to-bend "Z" distance (m) LD1 := 2.00-0.04-0.0045 !outer bend-to-bend "Z" distance (m) LD2 := 8.00-0.04-0.0508-0.0045 !outer bend-to-bend "Z" distance (m) LD3 := 8.00-0.04-0.0508-0.0045 !outer bend-to-bend "Z" distance (m) LD4 := 2.00-0.04-0.0045 !outer bend-to-bend "Z" distance (m) LDo1 := LD1/COS(AB21) !outer bend-to-bend path length (m) LDo2 := LD2/COS(AB21)-LQc !outer bend-to-bend path length (m) LDo3 := LD3/COS(AB21)-LQc !outer bend-to-bend path length (m) LDo4 := LD4/COS(AB21) !outer bend-to-bend path length (m) ! DL1 ! KQA01 := -7.474220813631 !OLD - no lsr-htr (for commissioning in Dec. '06 through July '07) & on-measured TWSS0 ! KQA02 := 8.137641193725 ! KQE01 := -2.215639104385 ! KQE02 := -0.241173314721 ! KQE03 := 7.613440306134 ! KQE04 := -6.985386854286 ! KQA01 := -12.492179751016 !OLD - with 5.4-cm lamu lsr-htr and "MATRIX" focusing, but non-measured TWSS0 ! KQA02 := 11.022504569397 ! KQE01 := -3.089332618348 ! KQE02 := 0.090132722014 ! KQE03 := 6.822078966488 ! KQE04 := -5.731166555613 ! KQA01 := -6.1200 !post Aug. 11, 2008 matching based on real measurements with heater/chicane not yet installed (64 & 135 MeV) ! KQA02 := 12.6808 ! KQE01 := -1.4046 ! KQE02 := -2.4546 ! KQE03 := 9.6624 ! KQE04 := -7.4610 ! KQA01 := -12.317411498864 !new design with laser-heater ON (chicane and und, w/Betx=Bety=12 m), based on measured (back-tracked) TWSS0 ! KQA02 := 13.706906173749 ! KQE01 := -6.538179321052 ! KQE02 := 5.354060093454 ! KQE03 := 6.054674881291 ! KQE04 := -5.235476556481 ! rematched with laser-heater ON (chicane dX= 35 mm) KQA01 := -12.315067380182 KQA02 := 13.705554947598 KQE01 := -6.532677301494 KQE02 := 5.351055993902 KQE03 := 6.053732882313 KQE04 := -5.234073678944 KQM01 := 15.082997416875 KQM02 := -11.969358129236 KQM03 := -8.29494541292 KQM04 := 13.33787357734 KQB := 22.169715923062 QA01 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQA01 QA02 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQA02 QE01 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQE01 QE02 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQE02 QE03 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQE03 QE04 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQE04 QM01 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQM01 QM02 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQM02 QB : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQB QM03 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQM03 QM04 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQM04 ! L1 KQL1 := 3.789198342593 QFL1 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=+KQL1 QDL1 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=-KQL1 KQA11 := -KQL1 KQA12 := 1.831403533749 QA11 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQA11 QA12 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQA12 ! BC1 KQ21201 := -9.394155388085 KQM11 := 8.000790178508 KQM12 := -8.326568628912 KQM13 := 9.937676628969 KCQ11 := 0 KSQ13 := 0 KCQ12 := 0 KQ21301 := -0.1347 !turn this quad OFF for LCLS operations (this is meas'd remnant field of Gdl = 0.12 kG) KQM14 := 7.054168937435 KQM15 := -6.723000446327 Q21201 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ21201 !QE-072 after Aug 2006; gets moved downstream of pre-LCLS location by 1.101312 m (measured parallel to main linac axis) QM11 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQM11 CQ11 : QUAD, TYPE="ETB", L=LQc/2, APER=rQc, K1=KCQ11 !now ETB tweaker quad SQ13 : QUAD, L=0.16/2, APER=0.06, K1=KSQ13, TILT !per Kirk Bertsche CQ12 : QUAD, TYPE="ETB", L=LQc/2, APER=rQc, K1=KCQ12 !now ETB tweaker quad QM12 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQM12 QM13 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQM13 Q21301 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ21301 !QE-004 after Aug 2006; gets moved downstream of pre-LCLS location by 1.247066 m (measured parallel to main linac axis), and turned off for LCLS QM14 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQM14 QM15 : QUAD, TYPE="ETA", L=LQx/2, APER=rQx, K1=KQM15 ! L2 KQL2 := 0.708388522907 QFL2 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=+KQL2 QDL2 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=-KQL2 KQ21401 := 1.030123463078 !QE-002 after Aug 2006 KQ21501 := -0.820757556128 !use pre-Aug-2006 Q21201 magnet KQ21601 := KQL2 !use pre-Aug-2006 Q21301 magnet KQ21701 := -KQL2 KQ21801 := 0.726696191485 KQ21901 := -0.721528926061 KQ22201 := 0.714603191911 KQ22301 := -0.762188913757 KQ22401 := KQL2 KQ22501 := -KQL2 KQ22601 := KQL2 KQ22701 := -KQL2 KQ22801 := 0.747560469838 KQ22901 := -0.709980930665 KQ23201 := 0.720791509747 KQ23301 := -0.741851024289 KQ23401 := KQL2 KQ23501 := -KQL2 KQ23601 := KQL2 KQ23701 := -KQL2 KQ23801 := 0.770666348011 KQ23901 := -0.726851638763 KQ24201 := 0.779293384791 KQ24301 := -0.856497177248 KQ24401 := 1.024817869713 KQ24501 := -0.954003584585 KQ24601 := 0.608135546584 Q21401 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ21401 Q21501 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ21501 Q21601 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ21601 Q21701 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ21701 Q21801 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ21801 Q21901 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ21901 Q22201 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ22201 Q22301 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ22301 Q22401 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ22401 Q22501 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ22501 Q22601 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ22601 Q22701 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ22701 Q22801 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ22801 Q22901 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ22901 Q23201 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ23201 Q23301 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ23301 Q23401 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ23401 Q23501 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ23501 Q23601 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ23601 Q23701 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ23701 Q23801 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ23801 Q23901 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ23901 Q24201 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ24201 Q24301 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ24301 Q24401 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ24401 Q24501 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ24501 Q24601 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ24601 ! BC2 KQ24701 := -1.307122793026 KQM21 := 0.511895916574 KCQ21 := 0 KCQ22 := 0 KQM22 := -0.589455717616 KQ24901 := 1.081452709118 Q24701A : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ24701 !in same location as pre-LCLS (with its BPM) Q24701B : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ24701 !10 cm between Q24701A & B QM21 : QUAD, TYPE="0.91Q17.72", L=LQF/2, APER=rQF, K1=KQM21 CQ21 : QUAD, TYPE="ETB", L=LQc/2, APER=rQc, K1=KCQ21 CQ22 : QUAD, TYPE="ETB", L=LQc/2, APER=rQc, K1=KCQ22 QM22 : QUAD, TYPE="0.91Q17.72", L=LQF/2, APER=rQF, K1=KQM22 Q24901A : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ24901 !moved 2.397400 m downstream of original Q24901 position Q24901B : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ24901 !10 cm between Q24901A & B (BPM in this 2nd quad) ! L3 ! KQFL3 := 0.446670469684 !was used for 12*2*pi MUX from BX24 to BX31 ! KQDL3 := -0.424793498653 !was used for 12*2*pi MUX from BX24 to BX31 KQFL3 := 0.395798933782 !gives psix = 50.76 deg, 44.64 deg, 45.00 deg between four LI28 wires KQDL3 := -0.395649286346 !gives TCAV3 -> OTR30 right + WS28 psiy: 48.96 deg, 45.72 deg, 43.92 deg QFL3 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQFL3 QDL3 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQDL3 KQ25201 := 0.69835390233 KQ25301 := -0.479854531304 KQ25401 := 0.429832166012 KQ25501 := -0.400216279825 KQ25601 := KQFL3 KQ25701 := KQDL3 KQ25801 := 0.407524461523 KQ25901 := -0.38867870418 KQ26201 := 0.388844133085 KQ26301 := -0.405381176356 KQ26401 := KQFL3 KQ26501 := KQDL3 KQ26601 := KQFL3 KQ26701 := KQDL3 KQ26801 := 0.406007960598 KQ26901 := -0.388769548432 KQ27201 := 0.391071563294 KQ27301 := -0.407171874797 KQ27401 := KQFL3 KQ27501 := KQDL3 KQ27601 := KQFL3 KQ27701 := KQDL3 KQ27801 := 0.40682165023 KQ27901 := -0.389505138741 KQ28201 := 0.390810721273 KQ28301 := -0.406510005482 KQ28401 := KQFL3 KQ28501 := KQDL3 KQ28601 := KQFL3 KQ28701 := KQDL3 KQ28801 := 0.406821689691 KQ28901 := -0.389505198882 KQ29201 := 0.390810639876 KQ29301 := -0.40650981716 KQ29401 := KQFL3 KQ29501 := KQDL3 KQ29601 := KQFL3 KQ29701 := KQDL3 KQ29801 := 0.406747754958 KQ29901 := -0.389374252182 KQ30201 := 0.390540048432 KQ30301 := -0.406220459812 KQ30401 := KQFL3 KQ30501 := KQDL3 KQ30601 := KQFL3 !KQ30701 := see LTU.xsif !KQ30801 := see LTU.xsif Q25201 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ25201 Q25301 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ25301 Q25401 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ25401 Q25501 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ25501 Q25601 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ25601 Q25701 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ25701 Q25801 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ25801 Q25901 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ25901 Q26201 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ26201 Q26301 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ26301 Q26401 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ26401 Q26501 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ26501 Q26601 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ26601 Q26701 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ26701 Q26801 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ26801 Q26901 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ26901 Q27201 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ27201 Q27301 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ27301 Q27401 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ27401 Q27501 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ27501 Q27601 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ27601 Q27701 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ27701 Q27801 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ27801 Q27901 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ27901 Q28201 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ28201 Q28301 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ28301 Q28401 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ28401 Q28501 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ28501 Q28601 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ28601 Q28701 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ28701 Q28801 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ28801 Q28901 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ28901 Q29201 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ29201 Q29301 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ29301 Q29401 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ29401 Q29501 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ29501 Q29601 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ29601 Q29701 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ29701 Q29801 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ29801 Q29901 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ29901 Q30201 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ30201 Q30301 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ30301 Q30401 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ30401 Q30501 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ30501 Q30601 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ30601 Q30615A: MARK, TYPE="QW" !power supply decommissioned Q30615B: MARK, TYPE="QW" !power supply decommissioned Q30615C: MARK, TYPE="QW" !power supply decommissioned Q30701 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ30701 Q30715A: MARK, TYPE="QW" !power supply decommissioned Q30715B: MARK, TYPE="QW" !power supply decommissioned Q30715C: MARK, TYPE="QW" !power supply decommissioned Q30801 : QUAD, TYPE="QE", L=LQE/2, APER=rQE, K1=KQ30801 ! ============================================================================== ! DRIFTs ! ------------------------------------------------------------------------------ ! L1/2/3 FODO cells D9 : DRIF, L=DLWL9 D10 : DRIF, L=DLWL10 DAQ1 : DRIF, L=0.0342 DAQ2 : DRIF, L=0.027 ! injector geometry LGGUN := 7.51*0.3048 LGL0 := 2*3.0441+1.0 LGBEND := 0.95 + 2*0.3048 ! add 12" to either side of QB for more room (22JAN04 - PE) LGEMIT := 9.000328707307 LGMATCH := 1.5134597681 DGGUN : DRIF, L=LGGUN DGL0 : DRIF, L=LGL0 ! L0 LOADLOCK : DRIF, L=LGGUN-1.42 DL00 : DRIF, L=-LOADLOCK[L] !from cathode back to u/s end of loadlock DL01a : DRIF, L=0.19601-LSOL1/2 DL01a1 : DRIF, L=0.07851 DL01a2 : DRIF, L=0.11609 DL01a3 : DRIF, L=0.10461 DL01a4 : DRIF, L=0.0170+0.0014 DL01a5 : DRIF, L=0.0132-0.00223 DL01b : DRIF, L=0.0825 DL01c : DRIF, L=0.1340-0.00353-0.003175 DL01d : DRIF, L=0.1008464-0.0155757 DL01h : DRIF, L=0.0581886 DL01e : DRIF, L=0.2286-DXG0[L]-0.00536+0.0155757 DL01f : DRIF, L=0.1353+0.00708 DL01f2 : DRIF, L=0.0277+0.00167 DL01g : DRIF, L=0.0740-0.00341 DL02a1 : DRIF, L=0.060294605 !0.066356+0.0021436-0.008205 DL02a2 : DRIF, L=0.104580+0.008205 DL02a3 : DRIF, L=0.098776-LQx/2+0.028834 DL02b1 : DRIF, L=0.169672-LQx/2-0.028834+0.007646 DL02b2 : DRIF, L=0.185928-LQx/2-0.007646+0.001610 DL02c : DRIF, L=0.121498-LQx/2-0.001610 ! Heater-Chicane: LSRHTR_ON := 1 !set to 0 for laser heater bends & undulator OFF and 1 for ON (nominal) ABh1 := -0.131709391614*LSRHTR_ON !heater-chicane bend angle (rad) BBh1 := Brhoi*SIN(ABh1)/LBh !heater-chicane bend field for 35-mm etaX_pk (kG) (-4.75393301417) RBh1 := Brhoi/BBh1 !heater-chicane bend radius (m) LBh1 := RBh1*ABh1 !heater-chicane bend path length (m) ABh1S := ASIN((LBh/2)/RBh1) !"short" half heater-chicane bend angle (rad) LBh1S := RBh1*ABh1S !"short" half heater-chicane bend path length (m) ABh1L := ABh1-ABh1S !"long" half heater-chicane bend angle (rad) LBh1L := RBh1*ABh1L !"long" half heater-chicane bend path length (m) Dh00 : DRIF, L=0.13453045-dLBh/2 Dh01 : DRIF, L=(0.155-dLBh)/COS(ABh1), TYPE="CSR" Dh02a : DRIF, L=0.06717020-dLBh/2, TYPE="CSR" Dh03a : DRIF, L=0.09290825, TYPE="CSR" Dh03b : DRIF, L=0.08401830, TYPE="CSR" Dh02b : DRIF, L=0.09503020-dLBh/2, TYPE="CSR" Dh06 : DRIF, L=0.13010070-dLBh/2, TYPE="CSR" HTRUND : INST BXH1a : SBEN, TYPE="5D3.9", L=LBh1S, ANGLE=+ABh1S, HGAP=GBh/2, & E1=0, FINT=0.400, FINTX=0 BXH1b : SBEN, TYPE="5D3.9", L=LBh1L, ANGLE=+ABh1L, HGAP=GBh/2, & FINT=0, E2=+ABh1, FINTX=0.400 BXH2a : SBEN, TYPE="5D3.9", L=LBh1L, ANGLE=-ABh1L, HGAP=GBh/2, & E1=-ABh1, FINT=0.400, FINTX=0 BXH2b : SBEN, TYPE="5D3.9", L=LBh1S, ANGLE=-ABh1S, HGAP=GBh/2, & FINT=0, E2=0, FINTX=0.400 BXH3a : SBEN, TYPE="5D3.9", L=LBh1S, ANGLE=-ABh1S, HGAP=GBh/2, & E1=0, FINT=0.400, FINTX=0 BXH3b : SBEN, TYPE="5D3.9", L=LBh1L, ANGLE=-ABh1L, HGAP=GBh/2, & FINT=0, E2=-ABh1, FINTX=0.400 BXH4a : SBEN, TYPE="5D3.9", L=LBh1L, ANGLE=+ABh1L, HGAP=GBh/2, & E1=+ABh1, FINT=0.400, FINTX=0 BXH4b : SBEN, TYPE="5D3.9", L=LBh1S, ANGLE=+ABh1S, HGAP=GBh/2, & FINT=0, E2=0, FINTX=0.400 ! define unsplit SBENs for BMAD ... not used by MAD BXH1 : SBEN, TYPE="5D3.9", HGAP=GBh/2, L=LBh1, ANGLE=+ABh1, & E1=0, FINT=0.400, E2=+ABh1, FINTX=0.400 BXH2 : SBEN, TYPE="5D3.9", HGAP=GBh/2, L=LBh1, ANGLE=-ABh1, & E1=-ABh1, FINT=0.400, E2=0, FINTX=0.400 BXH3 : SBEN, TYPE="5D3.9", HGAP=GBh/2, L=LBh1, ANGLE=-ABh1, & E1=0, FINT=0.400, E2=-ABh1, FINTX=0.400 BXH4 : SBEN, TYPE="5D3.9", HGAP=GBh/2, L=LBh1, ANGLE=+ABh1, & E1=+ABh1, FINT=0.400, E2=0, FINTX=0.400 ! Laser-Heater Undulator Model: lam := 0.054 !laser-heater undulator period [m] lamr := 758E-9 !heater laser wavelength [m] gami := Ei/mc2 !Lorentz energy factor in laser-heater undulator [ ] K_und := LSRHTR_ON*sqrt(2*(lamr*2*gami^2/lam - 1)) !undulator K for laser heater und. Lhun := 0.506263 !length of laser-heater undulator Lhunh := Lhun/2 kqlh := (K_und*2*pi/lam/sqrt(2)/gami)^2 !natural undulator focusing "k" in y-plane [m^-2] ! handle K_und->0 by expressing R34 as an approximate SINC function ARGh := Lhunh*sqrt(kqlh) ARGh2 := ARGh*ARGh ARGh4 := ARGh2*ARGh2 ARGh6 := ARGh4*ARGh2 SINCARGh := 1-ARGh2/6+ARGh4/120-ARGh6/5040 !~sinc(ARGh)=sin(ARGh)/ARGh R34h := Lhunh*SINCARGh ! laser-heater undulator modeled as R-matrix to include vertical natural focusing: LH_UND : MATRIX, TYPE="LHund", L=Lhunh, & RM(1,1) = 1.0, & RM(1,2) = Lhunh, & RM(2,1) = 0.0, & RM(2,2) = 1.0, & RM(3,3) = cos(Lhunh*sqrt(kqlh)), & RM(3,4) = R34h, & RM(4,3) = -sin(Lhunh*sqrt(kqlh))*sqrt(kqlh), & RM(4,4) = cos(Lhunh*sqrt(kqlh)) !, & !RM(5,6) = Lhunh/(gami^2)*(1+(K_und^2)/2) !VALUE, gami,kqlh,K_und !VALUE, LH_UND[RM(1,2)],Lhun/2 !VALUE, LH_UND[RM(3,3)],cos(Lhun/2*sqrt(kqlh)) !VALUE, LH_UND[RM(3,4)],sin(Lhun/2*sqrt(kqlh))/sqrt(kqlh) !VALUE, LH_UND[RM(4,3)],-sin(Lhun/2*sqrt(kqlh))*sqrt(kqlh) !VALUE, LH_UND[RM(4,4)],cos(Lhun/2*sqrt(kqlh)) !VALUE, LH_UND[RM(5,6)],Lhun/2/(gami^2)*(1+(K_und^2)/2) LHBEG : MARK LHEND : MARK ! DL1 LWS01_03 := 3.827458 !distance from WS01 to WS03 wire centers [m] (changed 06MAY05 -PE) BMIN0 := LWS01_03/SQRT(3)/2 !betaX=betaY at WS02 where waist is located (12NOV03 -PE) !VALUE, BMIN0 MRK0 : MARK DE00 : DRIF, L=0.024994 DE00a : DRIF, L=0.070613-LQx/2 DE01a : DRIF, L=0.130373-LQx/2 DE01b : DRIF, L=0.176359-LQx/2 DE01c : DRIF, L=0.094781 DE02 : DRIF, L=0.0897395-LQx/2 DE03a : DRIF, L=0.16832-LQx/2 DE03b : DRIF, L=0.047581 DE03c : DRIF, L=0.190499-LQx/2 DE04 : DRIF, L=0.197688-LQx/2 DE05 : DRIF, L=0.151968 DE05a : DRIF, L=DE05[L]/2 DE05c : DRIF, L=0.104470 DE06b : DRIF, L=0.2478024 DE06a : DRIF, L=LWS01_03/2-DE05[L]-DE05c[L]-DE06b[L] DE06d : DRIF, L=0.1638307 DE06e : DRIF, L=LWS01_03/2-DE05[L]-DE06d[L] DE07 : DRIF, L=0.2045007-LQx/2+0.305E-3 DE08 : DRIF, L=0.2318721-LQx/2-0.03 DE08a : DRIF, L=0.153330+0.03 DE08b : DRIF, L=0.170620-LQx/2 DE09 : DRIF, L=0.27745-LQx/2 dLDB00 := -0.54842233769E-6 DB00a : DRIF, L=0.3997+dLDB00, TYPE="CSR" DB00b : DRIF, L=0.161, TYPE="CSR" DB00c : DRIF, L=0.2191-LQE/2, TYPE="CSR" DB00d : DRIF, L=0.342-LQE/2, TYPE="CSR" DB00e : DRIF, L=0.4378+dLDB00, TYPE="CSR" dLDM00 := 2*ABS(dLDB00)*COS(ADL1/2) DM00 : DRIF, L=0.203400-ZOFFINJ+0.03+dLDM00, TYPE="CSR" ! move entire injector ~12 mm dntr. (Nov. 17, 2004 - PE) DM00a : DRIF, L=0.224683-LQx/2-0.03, TYPE="CSR" DM01 : DRIF, L=0.142367-LQx/2, TYPE="CSR" DM01a : DRIF, L=0.262800-LQx/2, TYPE="CSR" DM02 : DRIF, L=0.194200-LQx/2 DM02a : DRIF, L=0.157448 ! L1 DAQA1 : DRIF, L=0.033450+dz_QA11 DAQA2 : DRIF, L=0.033450-dz_QA11 DAQA3 : DRIF, L=0.033450 DAQA4 : DRIF, L=0.033450 ! BC1 LWW1 := 1.656196 ! WS11-12 drift length and therefore ~ beam size BMIN1 := LWW1/SQRT(3) ! betaX,Y at WS12 DL1Xa : DRIF, L=0.093369 DL1Xb : DRIF, L=0.2 DM10a : DRIF, L=0.227400-0.022322 DM10c : DRIF, L=0.122322+dz_Q21201 DM10x : DRIF, L=0.083617-dz_Q21201 DM11 : DRIF, L=0.272500+0.006383 DM12 : DRIF, L=0.127801 DBQ1 : DRIF, L=(0.400381-LB1/2-LQc/2)/COS(AB11), TYPE="CSR" D11o : DRIF, L=LD11o-(DBQ1[L]+LQc)-2E-7, TYPE="CSR" D11oa : DRIF, L=LD11oa, TYPE="CSR" D11ob : DRIF, L=LD11ob-(DBQ1[L]+LQc)-2E-7, TYPE="CSR" DDG0 : DRIF, L=0.1698-0.084915+0.0508-0.0045, TYPE="CSR" !additional drift in BC2 center prior to diag. package DDGA : DRIF, L=0.084915+0.0508-0.0045, TYPE="CSR" !additional drift in BC2 center prior to diag. package DDG1 : DRIF, L=0.2891-0.04046, TYPE="CSR" !BC1 and BC2 diag. package drifts (BX*2B to BPM) DDG2 : DRIF, L=0.1240+0.04046, TYPE="CSR" !BC1 and BC2 diag. package drifts (BPM to CE) DDG3 : DRIF, L=0.1460+0.036606, TYPE="CSR" !BC1 and BC2 diag. package drifts (CE to OTR) DDG4 : DRIF, L=0.2711-0.036606, TYPE="CSR" !BC1 and BC2 diag. package drifts (OTR to BX*3A) DM13a : DRIF, L=0.323450/2, TYPE="CSR" DM13b : DRIF, L=0.323450/2, TYPE="CSR" DM14a : DRIF, L=0.25-0.07615, TYPE="CSR" DM14b : DRIF, L=0.15638875-0.0254+0.07615, TYPE="CSR" DM14c : DRIF, L=0.15638875+0.0254, TYPE="CSR" DM15a : DRIF, L=0.252872-0.1524, TYPE="CSR" DM15b : DRIF, L=0.2836740-0.0826, TYPE="CSR" DM15c : DRIF, L=0.1524+0.0826, TYPE="CSR" DWW1a : DRIF, L=LWW1 DWW1b : DRIF, L=0.295 DWW1c1 : DRIF, L=0.812030-0.295-0.1017 DWW1c2 : DRIF, L=LWW1-1.427096+0.1017-0.0142-0.014199 DWW1d : DRIF, L=0.346099 DWW1e : DRIF, L=0.297366 DM16 : DRIF, L=0.25+dz_Q21301 DM17a : DRIF, L=0.2658341-dz_Q21301 DM16a : DRIF, L=0.0 DM16b : DRIF, L=0.0 DM17b : DRIF, L=0.4008829 DM17c : DRIF, L=0.385417+dz_QM14 DM18a : DRIF, L=0.228300-dz_QM14 DM18b : DRIF, L=0.228200+dz_QM15 DM19 : DRIF, L=0.099400-dz_QM15+0.000001 !force Z=2059.732900 m at ZLIN04 ! L2 and L3 DAQ3 : DRIF, L=0.3533 DAQ4 : DRIF, L=2.5527 DAQ5 : DRIF, L=2.841-0.3048-1.2192 DAQ6 : DRIF, L=0.2373 DAQ7 : DRIF, L=0.2748 DAQ8 : DRIF, L=2.6312 DAQ8A : DRIF, L=0.5+0.003200 DAQ8B : DRIF, L=2.1312-0.003200 DAQ12 : DRIF, L=0.2286 DAQ13 : DRIF, L=0.0231 DAQ14 : DRIF, L=0.2130 DAQ15 : DRIF, L=0.0087 DAQ16 : DRIF, L=0.2274 DAQ17 : DRIF, L=0.061900 !30-8c exit to IV30-9 D255a : DRIF, L=0.06621-0.001510 D255b : DRIF, L=0.11184+0.001510 D255c : DRIF, L=0.17805-0.275500+0.25 D255d : DRIF, L=0.03420+0.275500 D256a : DRIF, L=2.350-1.1919-0.559100 D256b : DRIF, L=0.559100 D256c : DRIF, L=0.61475 !0.540500-0.40505 D256d : DRIF, L=0.21115 ! BC2 DM21Z : DRIF, L=0.0828006-0.027 DM21A : DRIF, L=0.3199994 DM21H : DRIF, L=0.193 DM21B : DRIF, L=0.6340002 DM21C : DRIF, L=0.3202404 DM21D : DRIF, L=0.139536 DM21E : DRIF, L=0.1996034-0.0045 DM20 : DRIF, L=0.034200 DBQ2a : DRIF, L=LDo1, TYPE="CSR" D21oa : DRIF, L=LDo2, TYPE="CSR" D21i : DRIF, L=LD21i/2, TYPE="CSR" D21ob : DRIF, L=LDo3, TYPE="CSR" DBQ2b : DRIF, L=LDo4, TYPE="CSR" D21w : DRIF, L=0.311000-0.0045, TYPE="CSR" D21x : DRIF, L=0.208700, TYPE="CSR" D21y : DRIF, L=0.114235, TYPE="CSR" DM23B : DRIF, L=0.050405, TYPE="CSR" DM24A : DRIF, L=0.129440, TYPE="CSR" DM24B : DRIF, L=0.178000, TYPE="CSR" DM24D : DRIF, L=0.070700, TYPE="CSR" DM24C : DRIF, L=0.106300, TYPE="CSR" DM25 : DRIF, L=0.160400 ! ============================================================================== ! MARKERs ! ------------------------------------------------------------------------------ ! wire scanners WS01 : WIRE, TYPE="slow" !DL1- emittance WS02 : WIRE, TYPE="fast" !DL1- emittance WS03 : WIRE, TYPE="fast" !DL1- emittance WS04 : WIRE, TYPE="slow" !DL1- energy spread WS11 : WIRE, TYPE="slow" !BC1+ emittance WS12 : WIRE, TYPE="slow" !BC1+ emittance WS13 : WIRE, TYPE="slow" !BC1+ emittance !WS21 : WIRE, TYPE="slow" !LI24 emittance !WS22 : WIRE, TYPE="slow" !LI24 emittance !WS23 : WIRE, TYPE="slow" !LI24 emittance WS24 : WIRE, TYPE="slow" !BC2- emittance DWS21 : MARK !someday will be a wire-scanner again? DWS22 : MARK !someday will be a wire-scanner again? DWS23 : MARK !someday will be a wire-scanner again? !DWS24 : MARK !someday will be a wire-scanner again? WS27644 : WIRE, TYPE="slow" !LI27 emittance (existing; moved) WS28144 : WIRE, TYPE="slow" !LI28 emittance WS28444 : WIRE, TYPE="slow" !LI28 emittance WS28744 : WIRE, TYPE="slow" !LI28 emittance (existing; moved) ! profile monitors YAG01 : PROF, TYPE="YAG" !gun (15.5 in from cathode, per J. Schmerge, June 17, 2003; -PE) YAG02 : PROF, TYPE="YAG" !gun (need proper positions still - June 10, 2003) YAG03 : PROF, TYPE="YAG" !after L0-a (~ 60 MeV) - center of device in MAD is defined as center of YAG crystal, not mirror YAG04 : PROF, TYPE="YAG" !temporarily (Dec. '06 - July '07) placed in laser-heater region (135 MeV) - center of device in MAD is defined as center of YAG crystal, not mirror PH01 : INST !phase measurement RF cavity between L0-a and L0-b PH02 : INST !phase measurement RF cavity after BC1 PH03 : INST !phase measurement RF cavity after BC2 VV01 : MARK !vacuum valve near gun VV02 : MARK !vacuum valve in injector VV03 : MARK !vacuum valve in injector VV04 : MARK !vacuum valve in injector VVX1 : MARK, TYPE="MANUAL" !vacuum valve before X-band structure VVX2 : MARK, TYPE="MANUAL" !vacuum valve after X-band structure VV21 : MARK !vacuum valve in front of BC2 VV22 : MARK !vacuum valve after BC2 RST1 : INST !radiation stopper near WS02 in injector OTRH1 : PROF, TYPE="OTR" !Laser-heater OTR screen just upbeam of heater-undulator (12NOV03 - PE) OTRH2 : PROF, TYPE="OTR" !Laser-heater OTR screen just dnbeam of heater-undulator (12NOV03 - PE) !DOTRH1 : MARK !Laser-heater OTR screen PLACE-HOLDER just upbeam of heater-undulator (not installed until summer 2008) !DOTRH2 : MARK !Laser-heater OTR screen PLACE-HOLDER just dnbeam of heater-undulator (not installed until summer 2008) OTR1 : PROF, TYPE="OTR" !DL1-emit OTR2 : PROF, TYPE="OTR" !DL1-emit OTR3 : PROF, TYPE="OTR" !DL1-emit OTR4 : PROF, TYPE="OTR" !DL1 slice and proj. energy spread OTR11 : PROF, TYPE="OTR" !BC1 energy spread OTR12 : PROF, TYPE="OTR" !BC1 emittance OTR21 : PROF, TYPE="OTR" !BC2 energy spread !OTR22 : PROF, TYPE="OTR" !moved to XLEAP (February 2017) OTR_TCAV : PROF, TYPE="OTR" !LI25 longitudinal diagnostics ! bunch length monitors BL11 : BLMO !BC1+ (CSR-based relative bunch length monitor) BL12 : BLMO !BC1+ (ceramic gap-based relative bunch length monitor) BL21 : BLMO !BC2+ (CSR-based relative bunch length monitor) BL22 : BLMO !BC2+ (ceramic gap-based relative bunch length monitor) ! bunch charge monitors (toroids) IM01 : IMON !L0 IM02 : IMON !L0 IM03 : IMON !DL1- IMBC1I : IMON !BC1 input toriod (comparator with IMBC1O) IMBC1O : IMON !BC1 output toroid (comparator with IMBC1I) IMBC2I : IMON !BC2 input toroid (comparator with IMBC2O) IMBC2O : IMON !BC2 output toroid (comparator with IMBC2I) ! other diagnostics FC01 : INST !L0 Faraday cup w/screen AM00 : INST !gun laser normal incidence mirror AM01 : INST !alignment mirror CR01 : INST !Cerenkov radiator bunch length monitor ! collimators CE11 : RCOL, TYPE="HCOLL" !adjustable energy (x) collimator in middle of BC1 chicane CE21 : RCOL, TYPE="HCOLL" !adjustable energy (x) collimator in middle of BC2 chicane ! dumps TD11 : INST !BC1+ insertable block ! miscellany SOL1BK : SOLE, L=0, KS=0 !gun-bucking-solenoid (set to zero length and strength, with longitudinal unknown for now) CATHODE : INST SOL1 : SOLE, L=LSOL1/2, KS=0 !gun-solenoid (set to zero strength) SOL2 : SOLE, L=0, KS=0 !2nd-solenoid (set to zero length and strength, with longitudinal position as the actual solenoid's center) L0aWAKE : MARK EMAT : MARK !for Elegant only to remove energy error in DL1 bends DLFDa : MARK !dual-feed input coupler location at start of L0-a RF structure L0aMID : MARK OUTCPa : MARK !output coupler location at end of L0-a RF structure L0bBEG : MARK DLFDb : MARK !dual-feed input coupler location at start of L0-b RF structure L0bMID : MARK OUTCPb : MARK !output coupler location at end of L0-b RF structure CNT0 : MARK XBEG : MARK !before X-band RF, but after L1 XEND : MARK !after X-band RF, but before BC1 BC1Cbeg : MARK !start of BC1 chicane CNT1 : MARK !ELEGANT will correct the orbit here for CSR-steering BC1Cend : MARK !end of BC1 chicane LI21beg : MARK LI21end : MARK LI22beg : MARK LI22end : MARK LI23beg : MARK LI23end : MARK LI24beg : MARK LI24term : MARK !LI24 stops here ... the rest is BC2 BC2Cbeg : MARK !start of BC2 chicane CNT2 : MARK !ELEGANT will correct the orbit here for CSR-steering BC2Cend : MARK !end of BC2 chicane LI25beg : MARK LI25end : MARK LI26beg : MARK LI26end : MARK LI27beg : MARK LI27end : MARK LI28beg : MARK LI28end : MARK LI29beg : MARK LI29end : MARK LI30beg : MARK LI30term : MARK !LI30 stops here ... the rest is part of the BSY reconfiguration ! Permanent reference points in the linac (and LTU: Z') Z-coordinate system (in meters) ! (NOTE: Z' is measured parallel to the undulator axis which is at an angle of ! 2*AVB [=4.668514 mrad on May 4, 2004] w.r.t. the linac axis): ! (Note Q20-901 is at 2029.4060 m in drawing ID-380-802-00 pg. 2 - this does not agree ! with Woodley/Seeman database at 2029.3939 m. We assume drawing is right -PE, June 11, 2004) ! ============================================================================================ ZLIN00 : MARK !face of L0-a entrance flange : Z=2019.106625 (= 1.459000 m from cathode parallel to injector line, X = 9.612087) ! DBMARK98 : MARK !(135SPECT)135-MeV spect. dump: Z=2036.774471 ZLIN01 : MARK !entrance to 21-1b : Z=2035.035130 (= 20*101.600 m + 3.0441 m - 0.00897 m: 8/1/05) ZLIN02 : MARK !center of QUAD LI21 201 : (not used anymore since Q21201 is a few mm off) [was Z=2045.436400 pre 1/11/07] ZLIN03 : MARK !center of QUAD LI21 301 : (not used anymore since Q21301 is a few mm off) [was Z=2057.855466 pre 1/11/07] ZLIN04 : MARK !entrance to 21-3b : Z=2059.732900 ZLIN05 : MARK !start of LI22 : Z=2133.600000 ZLIN06 : MARK !start of LI23 : Z=2235.200000 ZLIN07 : MARK !start of LI24 : Z=2336.800000 ZLIN08 : MARK !center of QUAD LI24 701 (A) : Z=2410.786000 (not moved) ZLIN09 : MARK !start of LI25 : Z=2438.400000 ZLIN10 : MARK !start of LI26 : Z=2540.000000 ZLIN11 : MARK !start of LI27 : Z=2641.600000 ZLIN12 : MARK !start of LI28 : Z=2743.200000 ZLIN13 : MARK !start of LI29 : Z=2844.800000 ZLIN14 : MARK !start of LI30 : Z=2946.400000 ! DBMARK29 : MARK !end of linac : Z=3042.005000 ! WOODDOOR : MARK !start of BSY : Z=3050.512000 ! S100 : MARK !Station 100 : Z=3048.000000 ! ============================================================================== ! existing XCORs ! ------------------------------------------------------------------------------ !XC460009T : HKIC !XC460026T : HKIC !XC460034T : HKIC !do not use to steer ... bad results in Elegant !XC460036T : HKIC !do not use to steer ... bad results in Elegant !XC920020T : HKIC !XC921010T : HKIC !do not use to steer ... bad results in Elegant !XCBSY09 : HKIC !names changed from above to these (Sep. 2008) !XCBSY26 : HKIC !XCBSY36 : HKIC !do not use to steer ... bad results in Elegant !XCBSYQ2 : HKIC, TYPE="class-4" !was XCBSY09 (Mar. 2016) XCBSY34 : HKIC !do not use to steer ... bad results in Elegant !XCBSYQ3 : HKIC, TYPE="class-4" !was XCBSY09 (Mar. 2016) XCBSY60 : HKIC XCBSY81 : HKIC !do not use to steer ... bad results in Elegant ! ============================================================================== ! new XCORs ! ------------------------------------------------------------------------------ XC00 : HKIC, TYPE="class-S" XC01 : HKIC, TYPE="class-G" XC02 : HKIC, TYPE="c-1s-L0a" XC03 : HKIC, TYPE="class-1s" XC04 : HKIC, TYPE="class-1s" !fast-feedback (loop-1) XC05 : HKIC, TYPE="class-1s" !calibrated to <1% XC06 : HKIC, TYPE="class-1t" XC07 : HKIC, TYPE="class-1a" !fast-feedback (loop-1) XC08 : HKIC, TYPE="class-1a" XC09 : HKIC, TYPE="class-1a" XC10 : HKIC, TYPE="class-1a" XC21101 : HKIC, TYPE="class-1s" XC21135 : HKIC, TYPE="class-1s" XC21165 : HKIC, TYPE="class-1s" !calibrated to <1% XC21175 : HKIC, TYPE="type-4al" XC21302 : HKIC, TYPE="type-4al" XC21191 : HKIC, TYPE="class-1x" XC21275 : HKIC, TYPE="class-1a" XC21325 : HKIC, TYPE="class-1a" ! ============================================================================== ! existing YCORs ! ------------------------------------------------------------------------------ !YC460010T : VKIC !YC460027T : VKIC !do not use to steer ... bad results in Elegant !YC460035T : VKIC !do not use to steer ... bad results in Elegant !YC460037T : VKIC !YC920020T : VKIC !YC921010T : VKIC !do not use to steer ... bad results in Elegant !YCBSY10 : VKIC ! names changed from above to these (Sep. 2008) !YCBSYQ1 : VKIC, TYPE="class-4" !was YCBSY10 (Mar. 2016) YCBSY27 : VKIC !do not use to steer ... bad results in Elegant !YCBSY35 : VKIC !do not use to steer ... bad results in Elegant YCBSY37 : VKIC !YCBSY62 : VKIC YCBSY82 : VKIC !do not use to steer ... bad results in Elegant ! ============================================================================== ! new YCORs ! ------------------------------------------------------------------------------ YC00 : VKIC, TYPE="class-S" YC01 : VKIC, TYPE="class-G" YC02 : VKIC, TYPE="c-1s-L0a" YC03 : VKIC, TYPE="class-1s" YC04 : VKIC, TYPE="class-1s" !fast-feedback (loop-1) YC05 : VKIC, TYPE="class-1s" !calibrated to <1% YC06 : VKIC, TYPE="class-1t" YC07 : VKIC, TYPE="class-1a" !fast-feedback (loop-1) YC08 : VKIC, TYPE="class-1a" YC09 : VKIC, TYPE="class-1a" YC10 : VKIC, TYPE="class-1a" YC21102 : VKIC, TYPE="class-1s" YC21136 : VKIC, TYPE="class-1s" !calibrated to <1% YC21166 : VKIC, TYPE="class-1s" YC21174 : VKIC, TYPE="type-4al" YC21303 : VKIC, TYPE="type-4al" YC21192 : VKIC, TYPE="class-1x" YC21276 : VKIC, TYPE="class-1a" YC21325 : VKIC, TYPE="class-1a" YC5 : VKIC, TYPE="class-4" ! ============================================================================== ! existing BPMs ! ------------------------------------------------------------------------------ BPM21201 : MONI, TYPE="20_um_res" BPM21301 : MONI, TYPE="20_um_res" BPM21401 : MONI, TYPE="10_um_res" BPM21501 : MONI, TYPE="10_um_res" BPM21601 : MONI, TYPE="10_um_res" BPM21701 : MONI, TYPE="10_um_res" BPM21801 : MONI, TYPE="10_um_res" BPM21901 : MONI, TYPE="10_um_res" BPM22201 : MONI, TYPE="10_um_res" BPM22301 : MONI, TYPE="10_um_res" BPM22401 : MONI, TYPE="10_um_res" BPM22501 : MONI, TYPE="10_um_res" BPM22601 : MONI, TYPE="10_um_res" BPM22701 : MONI, TYPE="10_um_res" BPM22801 : MONI, TYPE="10_um_res" BPM22901 : MONI, TYPE="10_um_res" BPM23201 : MONI, TYPE="10_um_res" BPM23301 : MONI, TYPE="10_um_res" BPM23401 : MONI, TYPE="10_um_res" BPM23501 : MONI, TYPE="10_um_res" BPM23601 : MONI, TYPE="10_um_res" BPM23701 : MONI, TYPE="10_um_res" BPM23801 : MONI, TYPE="10_um_res" BPM23901 : MONI, TYPE="10_um_res" BPM24201 : MONI, TYPE="10_um_res" BPM24301 : MONI, TYPE="10_um_res" BPM24401 : MONI, TYPE="10_um_res" BPM24501 : MONI, TYPE="10_um_res" BPM24601 : MONI, TYPE="10_um_res" BPM24701 : MONI, TYPE="10_um_res" BPM24901 : MONI, TYPE="10_um_res" BPM25201 : MONI, TYPE="10_um_res" BPM25301 : MONI, TYPE="10_um_res" BPM25401 : MONI, TYPE="10_um_res" BPM25501 : MONI, TYPE="10_um_res" BPM25601 : MONI, TYPE="10_um_res" BPM25701 : MONI, TYPE="10_um_res" BPM25801 : MONI, TYPE="10_um_res" BPM25901 : MONI, TYPE="10_um_res" BPM26201 : MONI, TYPE="10_um_res" BPM26301 : MONI, TYPE="10_um_res" BPM26401 : MONI, TYPE="10_um_res" BPM26501 : MONI, TYPE="10_um_res" BPM26601 : MONI, TYPE="10_um_res" BPM26701 : MONI, TYPE="10_um_res" BPM26801 : MONI, TYPE="10_um_res" BPM26901 : MONI, TYPE="10_um_res" BPM27201 : MONI, TYPE="10_um_res" BPM27301 : MONI, TYPE="10_um_res" BPM27401 : MONI, TYPE="10_um_res" BPM27501 : MONI, TYPE="10_um_res" BPM27601 : MONI, TYPE="10_um_res" BPM27701 : MONI, TYPE="10_um_res" BPM27801 : MONI, TYPE="10_um_res" BPM27901 : MONI, TYPE="10_um_res" BPM28201 : MONI, TYPE="10_um_res" BPM28301 : MONI, TYPE="10_um_res" BPM28401 : MONI, TYPE="10_um_res" BPM28501 : MONI, TYPE="10_um_res" BPM28601 : MONI, TYPE="10_um_res" BPM28701 : MONI, TYPE="10_um_res" BPM28801 : MONI, TYPE="10_um_res" BPM28901 : MONI, TYPE="10_um_res" BPM29201 : MONI, TYPE="10_um_res" BPM29301 : MONI, TYPE="10_um_res" BPM29401 : MONI, TYPE="10_um_res" BPM29501 : MONI, TYPE="10_um_res" BPM29601 : MONI, TYPE="10_um_res" BPM29701 : MONI, TYPE="10_um_res" BPM29801 : MONI, TYPE="10_um_res" BPM29901 : MONI, TYPE="10_um_res" BPM30201 : MONI, TYPE="10_um_res" BPM30301 : MONI, TYPE="10_um_res" BPM30401 : MONI, TYPE="10_um_res" BPM30501 : MONI, TYPE="10_um_res" BPM30601 : MONI, TYPE="10_um_res" BPM30701 : MONI, TYPE="10_um_res" BPM30801 : MONI, TYPE="10_um_res" ! ============================================================================== ! new BPMs ! ------------------------------------------------------------------------------ BPM2 : MONI, TYPE="25_um_res" BPM3 : MONI, TYPE="25_um_res" BPM5 : MONI, TYPE="25_um_res" BPM6 : MONI, TYPE="10_um_res" BPM8 : MONI, TYPE="10_um_res" BPM9 : MONI, TYPE="25_um_res" BPM10 : MONI, TYPE="25_um_res" BPM11 : MONI, TYPE="25_um_res" BPM12 : MONI, TYPE="25_um_res" BPM13 : MONI, TYPE="25_um_res" BPM14 : MONI, TYPE="25_um_res" BPM15 : MONI, TYPE="25_um_res" BPMA11 : MONI, TYPE="20_um_res" BPMA12 : MONI, TYPE="20_um_res" BPMS11 : MONI, TYPE="20_um_res" BPMM12 : MONI, TYPE="20_um_res" BPMM14 : MONI, TYPE="20_um_res" BPMS21 : MONI, TYPE="40_um_res" ! ============================================================================== ! miscellaneous ! ------------------------------------------------------------------------------ D10cma : DRIF, L=0.127 ! ============================================================================== ! LINE definitions ! ------------------------------------------------------------------------------ L1c : LINE=(D9,DAQ1,QFL1,QFL1,DAQ1,& D9,DAQ1,QDL1,QDL1,DAQ1) L2c : LINE=(4*D10,DAQ1,QFL2,QFL2,DAQ2,& 4*D10,DAQ1,QDL2,QDL2,DAQ2) L3c : LINE=(4*D10,DAQ1,QFL3,QFL3,DAQ2,& 4*D10,DAQ1,QDL3,QDL3,DAQ2) SC1 : LINE=(XC01,YC01) !SC2 : LINE=(XC02,YC02) !SC3 : LINE=(XC03,YC03) !SC4 : LINE=(XC04,YC04) !SC5 : LINE=(XC05,YC05) SC7 : LINE=(XC07,YC07) SC8 : LINE=(XC08,YC08) SC9 : LINE=(XC09,YC09) SC10 : LINE=(XC10,YC10) !SC11 : LINE=(XC21101,YC21102) !SCA11 : LINE=(XC21135,YC21136) !SCA12 : LINE=(XC21165,YC21166) !SCM11 : LINE=(XC21191,YC21192) SCM13 : LINE=(XC21275,YC21276) SCM15 : LINE=(XC21325,YC21325) L0a_full : LINE=(FLNGa1,& L0a___1,DLFDa,L0a___2,SOL2,L0a___3,XC02,YC02,L0a___4,L0aMID,& L0a___5,XC03,YC03,L0a___6,OUTCPa,L0a___7,& FLNGa2) L0b_full : LINE=(FLNGb1,& L0b___1,DLFDb,L0b___2,XC04,YC04,L0b___3,L0bMID,& L0b___4,XC05,YC05,L0b___5,OUTCPb,L0b___6,& FLNGb2) TCAV0_full : LINE=(TCAV0,XC06,YC06,TCAV0) L1X_full : LINE=(XBEG,L1X___1,XC21191,YC21192,L1X___2,XEND) BXH1_full : LINE=(BXH1a,BXH1b) BXH2_full : LINE=(BXH2a,BXH2b) BXH3_full : LINE=(BXH3a,BXH3b) BXH4_full : LINE=(BXH4a,BXH4b) BX01_full : LINE=(BX01a,BX01b) BX02_full : LINE=(BX02a,BX02b) BX11_full : LINE=(BX11a,BX11b) BX12_full : LINE=(BX12a,BX12b) BX13_full : LINE=(BX13a,BX13b) BX14_full : LINE=(BX14a,BX14b) BX21_full : LINE=(BX21a,BX21b) BX22_full : LINE=(BX22a,BX22b) BX23_full : LINE=(BX23a,BX23b) BX24_full : LINE=(BX24a,BX24b) QA01_full : LINE=(QA01,QA01) QA02_full : LINE=(QA02,BPM5,QA02) QE01_full : LINE=(QE01,BPM6,QE01) QE02_full : LINE=(QE02,QE02) QE03_full : LINE=(QE03,BPM8,QE03) QE04_full : LINE=(QE04,BPM9,QE04) QM01_full : LINE=(QM01,BPM11,QM01) QM02_full : LINE=(QM02,BPM12,QM02) QB_full : LINE=(QB,BPM13,QB) QM03_full : LINE=(QM03,BPM14,QM03) QM04_full : LINE=(QM04,BPM15,QM04) Q21201_full : LINE=(Q21201,BPM21201,ZLIN02,Q21201) QM11_full : LINE=(QM11,QM11) CQ11_full : LINE=(CQ11,CQ11) SQ13_full : LINE=(SQ13,SQ13) CQ12_full : LINE=(CQ12,CQ12) QM12_full : LINE=(QM12,QM12) QM13_full : LINE=(QM13,BPMM12,QM13) Q21301_full : LINE=(Q21301,BPM21301,ZLIN03,Q21301) QM14_full : LINE=(QM14,BPMM14,QM14) QM15_full : LINE=(QM15,QM15) Q24701A_full : LINE=(Q24701A,ZLIN08,Q24701A) Q24701B_full : LINE=(Q24701B,BPM24701,Q24701B) QM21_full : LINE=(QM21,QM21) CQ21_full : LINE=(CQ21,CQ21) CQ22_full : LINE=(CQ22,CQ22) QM22_full : LINE=(QM22,QM22) Q24901A_full : LINE=(Q24901A,BPM24901,Q24901A) Q24901B_full : LINE=(Q24901B,Q24901B) SOL1_full : LINE=(SOL1,CQ01,XC00,YC00,SQ01,SOL1) LH_UND_full : LINE=(LH_UND,HTRUND,LH_UND) GUNBXG : LINE=(DL00,LOADLOCK,BEGGUN,& SOL1BK,DBMARK80,CATHODE,DL01a,& SOL1_full,DL01a1,VV01,DL01a2,AM00,DL01a3,AM01,DL01a4,YAG01,DL01a5,FC01,& DL01b,IM01,DL01c,SC1,DL01h,BPM2,DL01d,DBMARK81,& ENDGUN) BXGL0a : LINE=(BEGL0,& DBXG,DL01e,BPM3,DL01f,CR01,DL01f2,YAG02,DL01g,ZLIN00,& L0a_full,L0aWAKE) GUNL0a : LINE=(GUNBXG,BXGL0a) L0aL0b : LINE=(L0bBEG,DL02a1,YAG03,DL02a2,DL02a3,& QA01_full,DL02b1,PH01,DL02b2,& QA02_full,DL02c,& L0b_full,& ENDL0) LSRHTR : LINE=(LHBEG,& BXH1_full,Dh01,& BXH2_full,Dh02a,OTRH1,Dh03a,& LH_UND_full,Dh03b,OTRH2,Dh02b,& BXH3_full,Dh01,& BXH4_full,& LHEND) DL1_1 : LINE=(BEGDL1_1,EMAT,DE00,DE00a,& QE01_full,DE01a,IM02,DE01b,VV02,DE01c,& QE02_full,Dh00,& LSRHTR,Dh06,& TCAV0_full,DE02,& QE03_full,DE03a,DE03b,SC7,DE03c,& QE04_full,DE04,WS01,DE05,OTR1,DE05c,VV03,DE06a,RST1,DE06b,WS02,& DE05a,MRK0,DE05a,OTR2,DE06d,BPM10,DE06e,WS03,DE05,OTR3,DE07,& QM01_full,DE08,SC8,DE08a,VV04,DE08b,& QM02_full,DE09,DBMARK82,& ENDDL1_1) DL1_2 : LINE=(BEGDL1_2,& BX01_full,DB00a,OTR4,DB00b,SC9,DB00c,& QB_full,DB00d,WS04,DB00e,& BX02_full,CNT0,DBMARK83,DM00,SC10,DM00a,& QM03_full,DM01,DM01a,& QM04_full,DM02,IM03,DM02a,& ENDDL1_2) DL1 : LINE=(DL1_1,DL1_2) !nominal LCLS DL1 layout with BX01/BX02 bends on DIAG1 : LINE=(DDG1,BPMS11,DDG2,CE11,DDG3,OTR11,DDG4) BC1c : LINE=(BC1Cbeg,& BX11_full,DBQ1,& CQ11_full,D11o,& BX12_full,DIAG1,& BX13_full,D11oa,& SQ13_full,D11ob,& CQ12_full,DBQ1,& BX14_full,CNT1,& BC1Cend) BC1i : LINE=(DL1Xa,VVX1,DL1Xb,& L1X_full,DM10a,VVX2,DM10c,& Q21201_full,DM10x,IMBC1I,DM11,& QM11_full,DM12) BC1e : LINE=(DM13a,BL11,DM13b,& QM12_full,DM14a,DM14b,IMBC1O,DM14c,& QM13_full,DM15a,BL12,DM15b,SCM13,DM15c,WS11,DWW1a,WS12,DWW1b,& OTR12,DWW1c1,PH02,DWW1c2,XC21302,DWW1d,YC21303,DWW1e,WS13,DM16,& Q21301_full,DM17a,DM17b,TD11,DM17c,& QM14_full,DM18a,SCM15,DM18b,& QM15_full,DBMARK28,DM19) BC1 : LINE=(BEGBC1,BC1i,BC1c,BC1e,ENDBC1) DIAG2 : LINE=(DDG1,BPMS21,DDG2,CE21,DDG3,OTR21,DDG4) BC2C1 : LINE=(BC2Cbeg,& BX21_full,DBQ2a,& CQ21_full,D21oa,& BX22_full,DDG0,DIAG2,DDGA,& BX23_full,D21ob,& CQ22_full,DBQ2b,& BX24_full,CNT2,& BC2Cend) BC2 : LINE=(BEGBC2,DM20,& Q24701A_full,D10cma,& Q24701B_full,DM21Z,DM21A,WS24,DM21H,IMBC2I,DM21B,VV21,DM21C,& QM21_full,DM21D,DM21E,BC2C1,D21w,D21x,BL21,D21y,DM23B,& QM22_full,DM24A,VV22,DM24B,DM24D,& Q24901A_full,DM24C,& Q24901B_full,DM25,& ENDBC2) ECELL : LINE=(QE31,DQEC,DQEC,QE32,QE32,DQEC,DQEC,QE31) ! ------------------------------------------------------------------------------ RETURN