! *** OPTICS=LCLS2sc09MAY17 *** ! LCLS2sc A-line ! ============================================================================== ! Modification History ! ------------------------------------------------------------------------------ ! 05-MAY-2017, M. Woodley ! * remove deferral designations ! * remove unused element definitions ! * pulsed correctors XCAPM2/YCAPM2 will be timed to affect the straight-ahead ! LTUH beam, but not the A-line beam ! * extend line to 3PR2 ! ------------------------------------------------------------------------------ ! 02-MAR-2017, M. Woodley ! * rename "SQ27.5" to SQ27p5 per G. White ! * expand BSYA area to include entire A-line (up to End Station wall) ! * add definitions for ABRDAS2 and TBRDAS2 (copied from DASEL.xsif) ! 24-FEB-2017, Y. Nosochkov ! * merge with A-line deck containing diagnostic + E158 (from M. Woodley) ! * rename rolled BKXAPM1-4 to BKRAPM1-4 (per naming convention) ! * rename rolled BXAM1 to BRAM1 (per naming convention) ! * remove ROLL4 S-rotation and replace it with BRAM1 tilt angle ! * update ROLL2 value ! * rename some parameters and drifts ! * update definition of 2-hole DUMPBSYA copper collimator using two separate ! collimators: for A-line (PCBSYA) and straight ahead BSY (PCBSYH) ! * move PCBSYA/PCBSYH (formerly DUMPBSYA) 1.35 m upstream (D. McCormick) ! * add deferred profile monitor PRBRAM1 and Cu target TGTBRAM1 upstream of ! BRAM1 (D. McCormick) ! * make the PRAPM profile monitor a YAG monitor (D. McCormick) and change ! name to YAGAPM ! * add deferred corrector package XCAPM2/YCAPM2 to the pulsed magnets ! (D. McCormick) ! * change deferment level of new A-line components from @3 to @1 ! ------------------------------------------------------------------------------ ! 02-NOV-2016, Y. Nosochkov ! * replace fast kicker/septum magnets with 120 Hz pulsed magnets (deferred) ! for ESTB (D. McCormick, J. Amann) ! * the pulsed magnets and other ESTB devices are not funded by LCLS-II (Paul) ! * update eng. type of BXAM1 from 1.0D38.37 to 2.0D38.37 (J. Amann) ! * move to baseline: PCBSY2, BTMBSY2 ! ------------------------------------------------------------------------------ ! 24-JUN-2016, Y. Nosochkov ! * add deferred BPMCUA between A-line kicker and septum ! * update the engineering type of BKYAL1,...,BKYAL5 kickers to ! "0.787K35.4" (J. Amann) ! ------------------------------------------------------------------------------ ! 26-FEB-2016, M. Woodley ! * remove SEQnn MARKers ! 26-FEB-2016, Y. Nosochkov ! * add BCS PCBSY2/BTMBSY2 at Z=3124 m (deferred @0) (S. Mao) ! * increase distance between kickers from 15 cm to 30 cm ! ------------------------------------------------------------------------------ ! 25-SEP-2015, Y. Nosochkov ! * update definitions of kickers and septum to allow zero angle ! 24-AUG-2015, Y. Nosochkov ! * update the TYPE of septum from 0.39SD38.98 to 0.625SD38.98 (J. Amann) ! * adjust quad strengths for match to the updated BSY optics ! * match geometry to the updated positions of A-line kicker & septum ! ------------------------------------------------------------------------------ ! 20-MAR-2015, M. Woodley ! * add SEQ21BEG, SEQ21END, BEGBSYA, ENDBSYA MARKERs ! 12-MAR-2015, Y. Nosochkov ! * add fast kickers and septum (as in spreader) to deflect beam into A-line ! * A-line optics based on original design per M. Woodley's deck ! ------------------------------------------------------------------------------ ! NOTE: these parameters are defined in DASEL.xsif ... they are redefined here ! to avoid "undefined parameter" errors ABRDAS2 := -0.012001987392 TBRDAS2 := 0.398106089513 !BRDAS2 roll angle (rad) ! ============================================================================== ! dipoles ! ------------------------------------------------------------------------------ ! yawed pulsed magnets GBKRAPM := 35.687E-3 !1.405K40.83 pulsed magnet gap (m) SBKRAPM := 1.055 !PM eff. straight length (m) TBKRAPM := 0.014303833885 !PM tilt angle (rad) ABKRAPM0 := -0.276615051231E-2 ABKRAPM := ABKRAPM0 *SETAL !angle per one PM (rad) ABKRAPMh := ABKRAPM/2 !PM half-angle ABKRAPMh2 := ABKRAPMh *ABKRAPMh ABKRAPMh4 := ABKRAPMh2*ABKRAPMh2 LBKRAPM := SBKRAPM/(1 -ABKRAPMh2/6 +ABKRAPMh4/120) !PM path length BKRAPM1a : SBEN, TYPE="1.405K40.83", L=LBKRAPM/2, ANGLE=ABKRAPM/2, & E1=ABKRAPM/2, E2=0, FINT=0.5, FINTX=0, HGAP=GBKRAPM/2, TILT=TBKRAPM BKRAPM1b : SBEN, TYPE="1.405K40.83", L=LBKRAPM/2, ANGLE=ABKRAPM/2, & E2=ABKRAPM/2, E1=0, FINT=0, FINTX=0.5, HGAP=GBKRAPM/2, TILT=TBKRAPM BKRAPM2a : SBEN, TYPE="1.405K40.83", L=LBKRAPM/2, ANGLE=ABKRAPM/2, & E1=ABKRAPM/2, E2=0, FINT=0.5, FINTX=0, HGAP=GBKRAPM/2, TILT=TBKRAPM BKRAPM2b : SBEN, TYPE="1.405K40.83", L=LBKRAPM/2, ANGLE=ABKRAPM/2, & E2=ABKRAPM/2, E1=0, FINT=0, FINTX=0.5, HGAP=GBKRAPM/2, TILT=TBKRAPM BKRAPM3a : SBEN, TYPE="1.405K40.83", L=LBKRAPM/2, ANGLE=ABKRAPM/2, & E1=ABKRAPM/2, E2=0, FINT=0.5, FINTX=0, HGAP=GBKRAPM/2, TILT=TBKRAPM BKRAPM3b : SBEN, TYPE="1.405K40.83", L=LBKRAPM/2, ANGLE=ABKRAPM/2, & E2=ABKRAPM/2, E1=0, FINT=0, FINTX=0.5, HGAP=GBKRAPM/2, TILT=TBKRAPM BKRAPM4a : SBEN, TYPE="1.405K40.83", L=LBKRAPM/2, ANGLE=ABKRAPM/2, & E1=ABKRAPM/2, E2=0, FINT=0.5, FINTX=0, HGAP=GBKRAPM/2, TILT=TBKRAPM BKRAPM4b : SBEN, TYPE="1.405K40.83", L=LBKRAPM/2, ANGLE=ABKRAPM/2, & E2=ABKRAPM/2, E1=0, FINT=0, FINTX=0.5, HGAP=GBKRAPM/2, TILT=TBKRAPM ! PM projections onto BSY HXR beam ZBKRAPM1 := SBKRAPM*COS(ABKRAPM0*1/2) ZBKRAPM2 := SBKRAPM*COS(ABKRAPM0*3/2) ZBKRAPM3 := SBKRAPM*COS(ABKRAPM0*5/2) ZBKRAPM4 := SBKRAPM*COS(ABKRAPM0*7/2) DBKRAPM1a : DRIF, L=ZBKRAPM1/2 ; DBKRAPM1b : DRIF, L=ZBKRAPM1/2 DBKRAPM2a : DRIF, L=ZBKRAPM2/2 ; DBKRAPM2b : DRIF, L=ZBKRAPM2/2 DBKRAPM3a : DRIF, L=ZBKRAPM3/2 ; DBKRAPM3b : DRIF, L=ZBKRAPM3/2 DBKRAPM4a : DRIF, L=ZBKRAPM4/2 ; DBKRAPM4b : DRIF, L=ZBKRAPM4/2 ! A-line merge bend GBRAM1 := 50.8E-3 !2.0D38.37 gap height (m) SBRAM1 := 1.025 !2.0D38.37 straight length (m) ABRAM1 := 0.232611190004E-2 !bend angle (rad) LBRAM1 := SBRAM1*ABRAM1/(2*SIN(ABRAM1/2)) !path length (m) TBRAM1 := 0.014303788803 !bend roll (rad) BRAM1A : SBEN, TYPE="2.0D38.37", L=LBRAM1/2, ANGLE=ABRAM1/2, & E1=ABRAM1/2, E2=0, HGAP=GBRAM1/2, FINT=0.5, FINTX=0 , TILT=TBRAM1 BRAM1B : SBEN, TYPE="2.0D38.37", L=LBRAM1/2, ANGLE=ABRAM1/2, & E2=ABRAM1/2, E1=0, HGAP=GBRAM1/2, FINT=0, FINTX=0.5, TILT=TBRAM1 ! A-bends AARC := -24*RADDEG !total arc bend angle (24 degrees) Nbend := 12 !number of arc bends ABA := AARC/Nbend !nominal arc bend angle SET, ABA, -1.999526617334*RADDEG !arc bend angle per Transport deck LBA := 3.024 GBA := 0.06 !Blue Book value B11A : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E1=ABA/2, FINT=0.5, FINTX=0 B11B : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E2=ABA/2, FINT=0, FINTX=0.5 B12A : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E1=ABA/2, FINT=0.5, FINTX=0 B12B : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E2=ABA/2, FINT=0, FINTX=0.5 B13A : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E1=ABA/2, FINT=0.5, FINTX=0 B13B : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E2=ABA/2, FINT=0, FINTX=0.5 B14A : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E1=ABA/2, FINT=0.5, FINTX=0 B14B : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E2=ABA/2, FINT=0, FINTX=0.5 B15A : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E1=ABA/2, FINT=0.5, FINTX=0 B15B : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E2=ABA/2, FINT=0, FINTX=0.5 B16A : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E1=ABA/2, FINT=0.5, FINTX=0 B16B : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E2=ABA/2, FINT=0, FINTX=0.5 B21A : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E1=ABA/2, FINT=0.5, FINTX=0 B21B : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E2=ABA/2, FINT=0, FINTX=0.5 B22A : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E1=ABA/2, FINT=0.5, FINTX=0 B22B : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E2=ABA/2, FINT=0, FINTX=0.5 B23A : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E1=ABA/2, FINT=0.5, FINTX=0 B23B : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E2=ABA/2, FINT=0, FINTX=0.5 B24A : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E1=ABA/2, FINT=0.5, FINTX=0 B24B : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E2=ABA/2, FINT=0, FINTX=0.5 B25A : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E1=ABA/2, FINT=0.5, FINTX=0 B25B : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E2=ABA/2, FINT=0, FINTX=0.5 B26A : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E1=ABA/2, FINT=0.5, FINTX=0 B26B : SBEN, L=LBA/2, HGAP=GBA/2, ANGLE=ABA/2, E2=ABA/2, FINT=0, FINTX=0.5 ! ESA bends (E158) LD1S := 1.83 LD2S := 3.45 LD3S := 3.45 AD1S := 0.022344631354 AD2S := -0.044690490267 AD3S := 0.022345239962 D1S : SBEN ,L=LD1S/2, ANGLE=AD1S/2, FINT=0, FINTX=0 D2S : SBEN ,L=LD2S/2, ANGLE=AD2S/2, FINT=0, FINTX=0 D3S : SBEN ,L=LD3S/2, ANGLE=AD3S/2, FINT=0, FINTX=0 ! ============================================================================== ! quadrupoles ! ------------------------------------------------------------------------------ LQ8cm := 2.0 rQ8cm := 0.08/2 LQ19 := 2.0 rQ19 := 0.186/2 LQ20 := 1.31318 rQ20 := 8.25*0.0254/2 LSQ := 0.55 rSQ := 0.08/2 COMMENT !original A-line K-values KQ10 := 0.040190926401 KQ11 := -0.037926743862 KQ19 := 0.029507959162 !0.032191661707 KQ20 := 0.961853807504E-2 !0.20869827928E-2 KQ27 := -0.06339026 KQ28 := 0.03715726 KQ30 := -0.03054855 KQ38 := 0.03460619 ENDCOMMENT COMMENT !Gold CNF (Cu beam) KQ10 := 0.040423634091 KQ11 := -0.038146319714 KQ19 := 0.030583793803 KQ20 := 0.893654456618E-2 KQ27 := -0.039980248816 KSQ := 0.021386632787 KQ28 := 0.044870041868 KQ30 := -0.016187858174 KQ38 := 0.024872603949 ENDCOMMENT COMMENT !Yuri's values (SC beam) KQ10 := 0.040562593923 KQ11 := -0.033577157433 KQ19 := 0.028596205953 KQ20 := 0.012609992225 KQ27 := -0.061763391269 KQ28 := 0.03154138433 KQ30 := -0.030289938043 KQ38 := 0.034801871726 ENDCOMMENT COMMENT !ELEGANT gives 200x200 um at 3PR2 (Cu beam) KQ10 := 0.039671140049 ! 0.041253414257 KQ11 := -0.039486914896 !-0.032253444307 KQ19 := 0.030012988711 ! 0.028019346852 KQ20 := 0.786567003252E-2 ! 0.014441223514 KQ27 := -0.068279189647 !-0.050199811389 KQ28 := 0.058092383435 ! 0.019597740581 KQ30 := -0.024131808918 !-0.032044443128 KQ38 := 0.018033595057 ! 0.035262579302 KSQ := 0.0 ENDCOMMENT ! note-1: the K-values below are for SC beam; the settings for Cu beam are ! in the "LCLS2cu_main.mad8" file ! note-2: duplicate these settings in SETK2scA in "LCLS2sc_main.mad8" KQ10 := 0.040562593923 KQ11 := -0.033577157433 KQ19 := 0.028596205953 KQ20 := 0.012609992225 KQ27 := -0.061763391269 KQ28 := 0.03154138433 KQ30 := -0.030289938043 KQ38 := 0.034801871726 Q10 : QUAD, L=LQ8cm/2, APER=rQ8cm, K1=KQ10 Q11 : QUAD, L=LQ8cm/2, APER=rQ8cm, K1=KQ11 Q19 : QUAD, L=LQ19/2, APER=rQ19, K1=KQ19 Q20 : QUAD, L=LQ20/2, APER=rQ20, K1=KQ20 Q27 : QUAD, L=LQ8cm/2, APER=rQ8cm, K1=KQ27 Q28 : QUAD, L=LQ8cm/2, APER=rQ8cm, K1=KQ28 Q30 : QUAD, L=LQ8cm/2, APER=rQ8cm, K1=KQ30 Q38 : QUAD, L=LQ8cm/2, APER=rQ8cm, K1=KQ38 KSQ := 0.0 SQ27p5 : QUAD, L=LSQ/2, APER=rSQ, K1=KSQ, TILT ! ESA quads (E158) LQSA := 1.327 rQSA := 193.0e-3 ! E158 run value (P. Bosted) KQ1SA := 0.016723215505 KQ2SA := -0.031838409505 KQ3SA := 0.031838409505 KQ4SA := -0.016080013116 Q1S : QUAD, L=LQSA/2, K1=KQ1SA, APER=rQSA Q2S : QUAD, L=LQSA/2, K1=KQ2SA, APER=rQSA Q3S : QUAD, L=LQSA/2, K1=KQ3SA, APER=rQSA Q4S : QUAD, L=LQSA/2, K1=KQ4SA, APER=rQSA ! ============================================================================== ! drifts ! ------------------------------------------------------------------------------ D105 : DRIF, L=5.5372 D106 : DRIF, L=0.727 D107 : DRIF, L=0.7755 D108 : DRIF, L=3.84839 D109 : DRIF, L=0.7755 D110 : DRIF, L=3.84839 D111 : DRIF, L=0.7755 D112 : DRIF, L=15.74899 D113 : DRIF, L=9.0997 D114 : DRIF, L=5.94572 D115 : DRIF, L=0.7755 D116 : DRIF, L=3.84839 D117 : DRIF, L=0.7755 D118 : DRIF, L=3.84839 D119 : DRIF, L=0.7755 D120 : DRIF, L=1.744768 !1.74477 D121 : DRIF, L=1.525 D122 : DRIF, L=1.925 D123 : DRIF, L=38.1116 D124 : DRIF, L=21.4778 D125 : DRIF, L=5.04065 DPR2 : DRIF, L=12.25174 !wall to 3PR2 in ESA alcove D201 : DRIF, L=20.44174-DPR2[L] D202 : DRIF, L=2.5 D203 : DRIF, L=1.69 D204 : DRIF, L=1.4865 D205 : DRIF, L=1.413 D206 : DRIF, L=2.603 D207 : DRIF, L=1.013 D208 : DRIF, L=31.04932 D209 : DRIF, L=92.118 ! drifts for diagnostic and correction devices D002a : DRIF, L=0.090479 D002b : DRIF, L=1.654993 D002c : DRIF, L=0.0184 D002d : DRIF, L=2.466807 D002e : DRIF, L=0.34925 D002f : DRIF, L=4.3434 D002g : DRIF, L=6.213125 D002h : DRIF, L=0.3429 D002i : DRIF, L=0.447449 D003a : DRIF, L=0.128016 D003b : DRIF, L=1.609344 D003c : DRIF, L=0.331248 D003d : DRIF, L=0.628073 D003e : DRIF, L=0.2286 D003f : DRIF, L=0.4826 D003g : DRIF, L=0.3556 D003h : DRIF, L=0.415546 D004a : DRIF, L=0.204216 D004b : DRIF, L=0.581559 D005a : DRIF, L=0.762 D005b : DRIF, L=2.329 D005c : DRIF, L=5.402548 D101a : DRIF, L=7.405675 D101b : DRIF, L=3.2853 D101c : DRIF, L=0.635 D101d : DRIF, L=0.787 D101e : DRIF, L=0.534 D101f : DRIF, L=0.813 D101g : DRIF, L=0.685 D101h : DRIF, L=0.61 D101i : DRIF, L=1.27 D101j : DRIF, L=1.778 D101k : DRIF, L=0.457 D101l : DRIF, L=0.153 D101m : DRIF, L=0.177 D101n : DRIF, L=0.483 D101o : DRIF, L=0.483 D101p : DRIF, L=0.587 PMV : DRIF, L=0.4 D101q : DRIF, L=0.589942 D102a : DRIF, L=1.06296 PM : DRIF, L=7.0 D102b : DRIF, L=1.06296 D103a : DRIF, L=66.20934 D103b : DRIF, L=0.615959 D103c : DRIF, L=2.850589 D103d : DRIF, L=0.15875 D105a : DRIF, L=0.808 D105b : DRIF, L=0.38 D105c : DRIF, L=0.478 D105d : DRIF, L=0.628 D105e : DRIF, L=0.684 D105f : DRIF, L=0.62 D105g : DRIF, L=0.88 D105h : DRIF, L=0.668 D105i : DRIF, L=0.3912 D108a : DRIF, L=0.829 D108b : DRIF, L=0.785 D108c : DRIF, L=2.23439 D110a : DRIF, L=2.98539 D110b : DRIF, L=0.863 D112a : DRIF, L=7.4348 D112b : DRIF, L=3.19319 D112c : DRIF, L=1.159 D112d : DRIF, L=1.302 D112e : DRIF, L=1.264 D112f : DRIF, L=0.723 D112g : DRIF, L=0.673 D113a : DRIF, L=1.32 D113b : DRIF, L=1.981 D113c : DRIF, L=5.7987 D114a : DRIF, L=4.47 D114b : DRIF, L=0.775 D114c : DRIF, L=0.70072 D116a : DRIF, L=2.81239 D116b : DRIF, L=1.036 D118a : DRIF, L=0.65139 D118b : DRIF, L=0.707 D118c : DRIF, L=1.131 D118d : DRIF, L=0.501 D118e : DRIF, L=0.858 D120b : DRIF, L=0.35 D120c : DRIF, L=0.513 D120a : DRIF, L=D120[L]-D120b[L]-D120c[L] !0.881768 D123a : DRIF, L=0.655 D123b : DRIF, L=0.673 D123c : DRIF, L=0.644 D123d : DRIF, L=0.657 D123e : DRIF, L=0.816 D123f : DRIF, L=0.445 D123g : DRIF, L=0.844 D123h : DRIF, L=31.9656 D123i : DRIF, L=0.729 D123j : DRIF, L=0.683 D124a : DRIF, L=0.629 D124b : DRIF, L=0.381 D124c : DRIF, L=0.635 D124d : DRIF, L=0.559 D124e : DRIF, L=1.041 D124f : DRIF, L=16.5857 D124g : DRIF, L=1.6471 ! PM drifts along A-line ZPCAPM := 0.1824 !length of PM collimator aligned along BSY HXR beam LPCAPM1 := ZPCAPM/COS(1*ABKRAPM) LPCAPM2 := ZPCAPM/COS(2*ABKRAPM) LPCAPM3 := ZPCAPM/COS(3*ABKRAPM) LPCAPM4 := ZPCAPM/COS(4*ABKRAPM) LDAPM := 0.5951 !space between two PMs along A-line trajectory LDAPM1 := (LDAPM-LPCAPM1)/2 LDAPM2 := (LDAPM-LPCAPM2)/2 LDAPM3 := (LDAPM-LPCAPM3)/2 LDAPM4 := (LDAPM-LPCAPM4)/2 DAPM1 : DRIF, L=LDAPM1 DAPM2 : DRIF, L=LDAPM2 DAPM2a : DRIF, L=LDAPM2/2 DAPM2b : DRIF, L=LDAPM2/2 DAPM3 : DRIF, L=LDAPM3 DAPM4 : DRIF, L=LDAPM4 LPCBSY2 := LPCSP/COS(4*ABKRAPM) !length of PCBSY2 aligned along BSY HXR beam LDA01 := 0.0471765+0.15 !verify the position of PCBSY2 with Stan LDA02 := 4.371494-LDA01-LPCSP/COS(4*ABKRAPM0) -1.35/COS(4*ABKRAPM0) LDA03 := 1.3206 +1.35/COS(4*ABKRAPM0) LDA04 := 48.451380526704-1.0 LDBRDAS2 := LBSP*COS(ABRDAS2*SIN(TBRDAS2)/2)*COS(ABRDAS2*COS(TBRDAS2)/2)/ & COS(ABRDAS2*COS(TBRDAS2)) LDA04b := 0.5 LDA04c := 19.829173153578 LDA04a := LDA04-LDBRDAS2-LDA04b-LDA04c LDA05 := 0.5 LDA06 := 0.5 DA01 : DRIF, L=LDA01 DA02 : DRIF, L=LDA02 DA03 : DRIF, L=LDA03 DBRDAS2a : DRIF, L=LDBRDAS2/2 DBRDAS2b : DRIF, L=LDBRDAS2/2 DRCDAS19 : DRIF, L=0.0 DA04a : DRIF, L=LDA04a DA04b : DRIF, L=LDA04b DA04c : DRIF, L=LDA04c DA05 : DRIF, L=LDA05 DA06 : DRIF, L=LDA06 DAMQ10 : DRIF, L=0.9875 ! PM drifts projected onto BSY HXR beamline LDZAPM1 := (LDAPM*COS(1*ABKRAPM0)-ZPCAPM)/2 LDZAPM2 := (LDAPM*COS(2*ABKRAPM0)-ZPCAPM)/2 LDZAPM3 := (LDAPM*COS(3*ABKRAPM0)-ZPCAPM)/2 LDZAPM4 := (LDAPM*COS(4*ABKRAPM0)-ZPCAPM)/2 LDZA01 := LDA01*COS(4*ABKRAPM0) LDZA02 := LDA02*COS(4*ABKRAPM0) DZAPM1 : DRIF, L=LDZAPM1 DZAPM2 : DRIF, L=LDZAPM2 DZAPM2a : DRIF, L=LDZAPM2/2 DZAPM2b : DRIF, L=LDZAPM2/2 DZAPM3 : DRIF, L=LDZAPM3 DZAPM4 : DRIF, L=LDZAPM4 DZA01 : DRIF, L=LDZA01 DZA02 : DRIF, L=LDZA02 DSCAPM2 : DRIF, L=0.0 ! ============================================================================== ! coordinate rolls ... bend plane rotated to remove linac slope ! ------------------------------------------------------------------------------ ROLLON := 1.0 ! original A-line values !ROLL1 : SROT, ANGLE= 0.014303845885 * ROLLON !ROLL2 : SROT, ANGLE=-0.393462907527E-2 * ROLLON !ROLL3 : SROT, ANGLE=-0.011395368282 * ROLLON ! new values !ROLL4 : SROT, ANGLE= 0.014303788803 * ROLLON !ROLL2 : SROT, ANGLE=-0.399639784046E-2 * ROLLON !ROLL3 : SROT, ANGLE= 0.0 * ROLLON !no ROLL3 per alignment group ROLL2 : SROT, ANGLE=(0.014303788803-0.399639784046E-2) * ROLLON ROLL3 : SROT, ANGLE= 0.0 * ROLLON !no ROLL3 per alignment group ! ============================================================================== ! XCORs and YCORs ! ------------------------------------------------------------------------------ XCAPM2 : HKIC, TYPE="unknown" !type to be determined A28X : HKIC A32X : HKIC YCAPM2 : VKIC, TYPE="unknown" !type to be determined A10Y : VKIC A18Y : VKIC A29Y : VKIC A33Y : VKIC ! ============================================================================== ! BPMs ! ------------------------------------------------------------------------------ ! rename BPM10 and BPM12 to avoid conflicts BPM10A : MONI BPM12A : MONI BPM17 : MONI BPM24 : MONI BPM28 : MONI BPM31 : MONI BPM32 : MONI ! ============================================================================== ! profile monitors, wire scanners, wire arrays, synchrotron light ports, ! spectrum foils, burn-through monitors, and Cu-target ! ------------------------------------------------------------------------------ PR10 : PROF SYNC : INST PR18 : PROF SP18 : INST PR20 : PROF PR28 : PROF PR33 : PROF ! new devices YAGAPM : PROF, TYPE="YAG" !YAG profile monitor PRBRAM1 : PROF, TYPE="unknown" !profile monitor, type to be determined TGTBRAM1 : INST, TYPE="Cu" !secondary production Cu target ! ============================================================================== ! toroids and beam charge monitors ! ------------------------------------------------------------------------------ I10 : IMON I11 : IMON I24 : IMON I28 : IMON I29 : IMON ! ============================================================================== ! collimators and slits ! ------------------------------------------------------------------------------ PC10 : ECOL PC12 : ECOL PC14 : ECOL PC17 : ECOL SL19 : RCOL SL10 : RCOL PC20 : ECOL PC24 : ECOL C24 : RCOL PC26 : ECOL PC29 : ECOL C37 : RCOL PCAPM1 : ECOL, TYPE="MPS PC", L=LPCAPM1, XSIZE=44.45E-3, YSIZE=6.35E-3 PCAPM2 : ECOL, TYPE="MPS PC", L=LPCAPM2, XSIZE=44.45E-3, YSIZE=6.35E-3 PCAPM3 : ECOL, TYPE="MPS PC", L=LPCAPM3, XSIZE=44.45E-3, YSIZE=6.35E-3 PCAPM4 : ECOL, TYPE="MPS PC", L=LPCAPM4, XSIZE=44.45E-3, YSIZE=6.35E-3 ! 1" ID A-line collimator -- part of 2-hole copper collimator d/s of A-line PM PCBSYA : ECOL, TYPE="MPS PC", L=0.45/COS(4*ABKRAPM0), & XSIZE=12.7E-3, YSIZE=12.7E-3 ! BCS devices PCBSY2 : ECOL, TYPE="BCS PC", L=LPCBSY2, & XSIZE=27.94E-3, YSIZE=27.94E-3 !BCS PC in BSY (2.2" diameter) BTMBSY2 : INST, TYPE="BCS BTM" !Burn-Through-Monitor behind PCBSY2 ! ============================================================================== ! vacuum components ! ------------------------------------------------------------------------------ IV10 : MARK FV10 : MARK IV26 : MARK FV28 : MARK ! ============================================================================== ! points of interest ! ------------------------------------------------------------------------------ BEGBSYA : MARK ENDBSYA : MARK BEGB : MARK !start of A-line bending ST22 : MARK !beam stopper MARC : MARK !match point ENDB : MARK !end of A-line bending (final emittance) ST29 : MARK !beam stopper ALWALL : MARK !upstream face of wall that separates A-line tunnel from alcove ESAE : MARK !east wall of ESA BMDE : MARK !Beam Dump East ! ============================================================================== ! beamlines ! ------------------------------------------------------------------------------ SCAPM2 : LINE=(XCAPM2,YCAPM2) LD105 : LINE=(& D105a,PC10,D105b,IV10,D105c,FV10,D105d,BPM10A,D105e,I10,D105f,PR10,D105g,& A10Y,D105h,I11,D105i) LD108 : LINE=(D108a,PC12,D108b,BPM12A,D108c) LD110 : LINE=(D110a,PC14,D110b) LD112 : LINE=(& D112a,SYNC,D112b,PC17,D112c,BPM17,D112d,A18Y,D112e,PR18,D112f,SP18,D112g) LD113 : LINE=(D113a,SL19,D113b,SL10,D113c) LD114 : LINE=(D114a,PC20,D114b,PR20,D114c) LD116 : LINE=(D116a,ST22,D116b) LD118 : LINE=(D118a,PC24,D118b,BPM24,D118c,I24,D118d,C24,D118e) LD120 : LINE=(D120a,PC26,D120b,IV26,D120c) LD123 : LINE=(& D123a,FV28,D123b,BPM28,D123c,I28,D123d,PR28,D123e,A28X,D123f,A29Y,D123g,& ST29,D123h,PC29,D123i,I29,D123j) LD124 : LINE=(& D124a,A32X,D124b,A33Y,D124c,BPM31,D124d,BPM32,D124e,PR33,D124f,C37,D124g) ! shared line with BSY ALINEa : LINE=(BEGBSYA,& BKRAPM1a,BKRAPM1b,DAPM1,PCAPM1,DAPM1,& BKRAPM2a,BKRAPM2b,DAPM2a,DSCAPM2,DAPM2b,PCAPM2,DAPM2,& BKRAPM3a,BKRAPM3b,DAPM3,PCAPM3,DAPM3,& BKRAPM4a,BKRAPM4b,DAPM4,PCAPM4,DA01,PCBSY2,BTMBSY2,DA02) ! separate line from BSY ALINEb : LINE=(PCBSYA,DA03,YAGAPM,DA04a,DBRDAS2a,DBRDAS2b,DA04b,DRCDAS19) ALINEc : LINE=(& DA04c,PRBRAM1,DA05,TGTBRAM1,DA06,& BRAM1A,BRAM1B,ROLL2,DAMQ10,& Q10,Q10,LD105,& Q11,Q11,D106,& BEGB,& B11A,B11B,D107,& B12A,B12B,LD108,& B13A,B13B,D109,& B14A,B14B,LD110,& B15A,B15B,D111,& B16A,B16B,LD112,& Q19,Q19,LD113,& Q20,Q20,LD114,& B21A,B21B,D115,& B22A,B22B,LD116,& B23A,B23B,D117,& B24A,B24B,LD118,& B25A,B25B,D119,& B26A,B26B,MARC,ROLL3,& ENDB,LD120,& Q27,Q27,D121,& SQ27p5,SQ27p5,D122,& Q28,Q28,LD123,& Q30,Q30,LD124,& Q38,Q38,D125,ALWALL,DPR2,& ENDBSYA) ESAs : LINE=(& D201,D1S,D1S,D202,D2S,D2S,D203,D3S,D3S,D204,Q1S,Q1S,D205,Q2S,Q2S,D206,& Q3S,Q3S,D207,Q4S,Q4S,D208,ESAE,D209,BMDE) ALINE : LINE=(ALINEa,ALINEb,ALINEc,ESAs) ! ------------------------------------------------------------------------------ RETURN