! *** OPTICS=AD_ACCEL-22JAN21 *** ! LCLS2sc DASEL ! ============================================================================== ! Modification History ! ------------------------------------------------------------------------------ ! 26-MAR-2020, M. Woodley ! * DASEL is being funded off-project ... undefer everything ! 31-JAN-2020, Y. Nosochkov ! * add vertical collimator (jaw or shielding plate) in front of BLRDAS to ! prevent errant electrons entering the S30XL septum aperture ! when S30XL and SXR kickers are off ! * move PRDAS12 to 1.5 m d/s of QDAS11 ! * add dump u/s of QDAS12 for S30XL stage-A (reuse PEP-II stopper per Alev) ! * rename DUMPS30XL to DUMPDAS for similar naming with other DASEL elements ! ------------------------------------------------------------------------------ ! 25-NOV-2019, Y. Nosochkov ! * update quad/corrector/BPM positions per L. Borzenets ! * add two ACMs ! ------------------------------------------------------------------------------ ! 23-AUG-2019, Y. Nosochkov ! * split drift DDASBK3 in two halves DDASBK3h ! ------------------------------------------------------------------------------ ! 31-OCT-2018, Y. Nosochkov ! * move DASEL septum 3.685 m d/s to reduce each kicker BL to 25 Gm @ 8 GeV ! * move BRDAS1 12.8 m u/s and increase septum angle to avoid interferences ! * adjust other magnet positions, rematch geometry and optics ! ------------------------------------------------------------------------------ ! 05-FEB-2018, Y. Nosochkov ! * minor optics rematch ! 06-SEP-2017, Y. Nosochkov ! * move BRDAS1 0.8 m downstream (K. Grouev), adjust positions of quads, ! rematch optics ! * update bore aperture of fast kickers to 20 mm (10 mm beam space + ! 10 mm pipe width) ! 22-AUG-2017, M. Woodley ! * add WOODDOOR MARKer ! 19-JUL-2017, M. Woodley ! * set ROLLRC = +1 by default (for MAD-to-BMAD); set to zero for Twiss in ! MAD driver file ! ------------------------------------------------------------------------------ ! 24-FEB-2017, Y. Nosochkov ! * rename rolled BKYDAS1-6 to BKRDAS1-6 (per naming convention) ! * move definitions of DDASA1, DDASA2 drifts to ALINE.xsif and rename ! * add three quads QDAS1b, QDAS2b, QDAS18b for compatibility with 8 GeV ! 23-NOV-2016, Y. Nosochkov ! * reduce number of kickers from 7 to 6 (T. Beukers) ! * correct minor error in kicker length formulas ! * move PRDAS14 to center of the drift between quads QDAS14 and QDAS15 ! * move PRDAS17 to upstream side of QDAS17 to avoid interference with BXSP1H ! 02-NOV-2016, Y. Nosochkov ! * match DASEL to new trajectory between BSY pulsed magnets and BXAM1 ! * increase x-offset of DASEL line between DC-bends from 35 to 40 cm ! * add a note that BRDAS2 is a merge DC-bend which is turned ON for ! DASEL beam to A-line or OFF for beam to A-line from BSY pulsed magnets ! 21-SEP-2016, Y. Nosochkov ! * add Y-corrector YCDAS1 (to compensate for missing trims on BYDAS1,2) ! * move YCDAS15 downstream and rename to YCDAS17 (for better phase) ! 16-SEP-2016, Y. Nosochkov ! * remove weak vertical bends BYDAS1, BYDAS2 ! * roll kicker/septum to compensate kicker vertical angle ! * rematch geometry & optics to compensate kicker orbit & dispersion ! 26-AUG-2016, Y. Nosochkov ! * change quad type from 2Q10 to 2Q4W ! * rename QDAS1 -> QDAS1a, QDAS2 -> QDAS2a ! 17-AUG-2016, Y. Nosochkov ! * add 3 BPMs (2 for MPS), 5 dipole correctors, 3 profile monitors ! 05-AUG-2016, Y. Nosochkov ! * resolve interferences: ! move QDAS1&2 and BYDAS2 0.815 m downstream ! move QDAS19 0.6 m upstream --> this will move QDAS17 0.45 m upstream ! * increase the number of kickers to 7 and move them 3 m upstream, ! note: this will also require moving dumpline BPMSP1D 3 m upstream ! 30-APR-2016, Y. Nosochkov ! * initial lattice ! ------------------------------------------------------------------------------ ! NOTE: ABRDAS2 and TBRDAS2 are defined in common.xsif ! ------------------------------------------------------------------------------ ! DASEL ! ------------------------------------------------------------------------------ ! Six rolled vertical kickers aligned along the BSY dumpline axis GBKRDAS := 0.02 !kicker bore gap (m) ZBKRDAS := 1.0 !kicker straight length (m) TBKRDAS := -0.030150284271 !kicker tilt angle relative to y-axis (rad) ABKRDAS0 := -0.56211349418E-3 ABKRDAS := ABKRDAS0 *SETDA !total kicker angle (rad) ABKRDAS1 := ASIN(1*SIN(ABKRDAS)/6) !1st kicker angle (rad) ABKRDAS12 := ASIN(2*SIN(ABKRDAS)/6) !1st+2nd kicker angle (rad) ABKRDAS13 := ASIN(3*SIN(ABKRDAS)/6) !1+2+3 kicker angle (rad) ABKRDAS14 := ASIN(4*SIN(ABKRDAS)/6) !1+2+3+4 kicker angle (rad) ABKRDAS15 := ASIN(5*SIN(ABKRDAS)/6) !1+2+3+4+5 kicker angle (rad) ABKRDAS2 := ABKRDAS12-ABKRDAS1 !2nd kicker angle (rad) ABKRDAS3 := ABKRDAS13-ABKRDAS12 !3rd kicker angle (rad) ABKRDAS4 := ABKRDAS14-ABKRDAS13 !4th kicker angle (rad) ABKRDAS5 := ABKRDAS15-ABKRDAS14 !5th kicker angle (rad) ABKRDAS6 := ABKRDAS -ABKRDAS15 !6th kicker angle (rad) LBKRDAS1 := 1*ZBKRDAS/(1-ABKRDAS1 *ABKRDAS1 /6) LBKRDAS12 := 2*ZBKRDAS/(1-ABKRDAS12*ABKRDAS12/6) LBKRDAS13 := 3*ZBKRDAS/(1-ABKRDAS13*ABKRDAS13/6) LBKRDAS14 := 4*ZBKRDAS/(1-ABKRDAS14*ABKRDAS14/6) LBKRDAS15 := 5*ZBKRDAS/(1-ABKRDAS15*ABKRDAS15/6) LBKRDAS := 6*ZBKRDAS/(1-ABKRDAS *ABKRDAS /6) LBKRDAS2 := LBKRDAS12-LBKRDAS1 LBKRDAS3 := LBKRDAS13-LBKRDAS12 LBKRDAS4 := LBKRDAS14-LBKRDAS13 LBKRDAS5 := LBKRDAS15-LBKRDAS14 LBKRDAS6 := LBKRDAS -LBKRDAS15 BKRDAS1a : SBEN, TYPE="0.787K35.4", L=LBKRDAS1/2, ANGLE=ABKRDAS1/2, & E1=0 , E2=0, FINT=0.5, FINTX=0, HGAP=GBKRDAS/2, TILT=PI/2+TBKRDAS BKRDAS1b : SBEN, TYPE="0.787K35.4", L=LBKRDAS1/2, ANGLE=ABKRDAS1/2, & E2=ABKRDAS1 , E1=0, FINT=0, FINTX=0.5, HGAP=GBKRDAS/2, TILT=PI/2+TBKRDAS BKRDAS2a : SBEN, TYPE="0.787K35.4", L=LBKRDAS2/2, ANGLE=ABKRDAS2/2, & E1=-ABKRDAS1 , E2=0, FINT=0.5, FINTX=0, HGAP=GBKRDAS/2, TILT=PI/2+TBKRDAS BKRDAS2b : SBEN, TYPE="0.787K35.4", L=LBKRDAS2/2, ANGLE=ABKRDAS2/2, & E2= ABKRDAS12, E1=0, FINT=0, FINTX=0.5, HGAP=GBKRDAS/2, TILT=PI/2+TBKRDAS BKRDAS3a : SBEN, TYPE="0.787K35.4", L=LBKRDAS3/2, ANGLE=ABKRDAS3/2, & E1=-ABKRDAS12, E2=0, FINT=0.5, FINTX=0, HGAP=GBKRDAS/2, TILT=PI/2+TBKRDAS BKRDAS3b : SBEN, TYPE="0.787K35.4", L=LBKRDAS3/2, ANGLE=ABKRDAS3/2, & E2= ABKRDAS13, E1=0, FINT=0, FINTX=0.5, HGAP=GBKRDAS/2, TILT=PI/2+TBKRDAS BKRDAS4a : SBEN, TYPE="0.787K35.4", L=LBKRDAS4/2, ANGLE=ABKRDAS4/2, & E1=-ABKRDAS13, E2=0, FINT=0.5, FINTX=0, HGAP=GBKRDAS/2, TILT=PI/2+TBKRDAS BKRDAS4b : SBEN, TYPE="0.787K35.4", L=LBKRDAS4/2, ANGLE=ABKRDAS4/2, & E2= ABKRDAS14, E1=0, FINT=0, FINTX=0.5, HGAP=GBKRDAS/2, TILT=PI/2+TBKRDAS BKRDAS5a : SBEN, TYPE="0.787K35.4", L=LBKRDAS5/2, ANGLE=ABKRDAS5/2, & E1=-ABKRDAS14, E2=0, FINT=0.5, FINTX=0, HGAP=GBKRDAS/2, TILT=PI/2+TBKRDAS BKRDAS5b : SBEN, TYPE="0.787K35.4", L=LBKRDAS5/2, ANGLE=ABKRDAS5/2, & E2= ABKRDAS15, E1=0, FINT=0, FINTX=0.5, HGAP=GBKRDAS/2, TILT=PI/2+TBKRDAS BKRDAS6a : SBEN, TYPE="0.787K35.4", L=LBKRDAS6/2, ANGLE=ABKRDAS6/2, & E1=-ABKRDAS15, E2=0, FINT=0.5, FINTX=0, HGAP=GBKRDAS/2, TILT=PI/2+TBKRDAS BKRDAS6b : SBEN, TYPE="0.787K35.4", L=LBKRDAS6/2, ANGLE=ABKRDAS6/2, & E2= ABKRDAS , E1=0, FINT=0, FINTX=0.5, HGAP=GBKRDAS/2, TILT=PI/2+TBKRDAS ! 2-hole rolled horizontal septum aligned along the BSY dumpline axis GBLRDAS := GBLSP !septum gap height (m) ZBLRDAS := LBLSP !septum straight length (m) ABLRDAS0 := -0.018635912887 ABLRDAS := ABLRDAS0 *SETDA !septum bending angle (rad) ABLRDASa := ASIN(SIN(ABLRDAS)/2) !angle per 1st half of the septum ABLRDASb := ABLRDAS-ABLRDASa !angle per 2nd half of the septum ABLRDAS_2 := ABLRDAS *ABLRDAS ABLRDAS_4 := ABLRDAS_2 *ABLRDAS_2 ABLRDASa_2 := ABLRDASa *ABLRDASa ABLRDASa_4 := ABLRDASa_2*ABLRDASa_2 LBLRDAS := ZBLRDAS /(1-ABLRDAS_2/6 +ABLRDAS_4/120 )/COS(ABKRDAS) LBLRDASa := ZBLRDAS/2 /(1-ABLRDASa_2/6+ABLRDASa_4/120)/COS(ABKRDAS) LBLRDASb := LBLRDAS-LBLRDASa BLRDASa : SBEN, TYPE="0.625SD38.98", L=LBLRDASa, ANGLE=ABLRDASa, & E1=0, E2=0 , FINT=0.5, FINTX=0, HGAP=GBLRDAS/2, TILT=TBKRDAS BLRDASb : SBEN, TYPE="0.625SD38.98", L=LBLRDASb, ANGLE=ABLRDASb, & E1=0, E2=ABLRDAS, FINT=0, FINTX=0.5, HGAP=GBLRDAS/2, TILT=TBKRDAS ! rolled DC-bends (BLmax of 1.0D38.37 = 7.35 kGm per J. Amann) ABRDAS1 := 0.019101579697 LBRDAS1 := LBSP*ABRDAS1/(2*SIN(ABRDAS1/2)) !BRDAS1 path length (m) TBRDAS1 := 0.219255742276 !BRDAS1 roll angle (rad) BRDAS1a : SBEN, TYPE="1.0D38.37", L=LBRDAS1/2, ANGLE=ABRDAS1/2, & E1=ABRDAS1/2, E2=0, FINT=0.5, FINTX=0, HGAP=GBSP/2, TILT=TBRDAS1 BRDAS1b : SBEN, TYPE="1.0D38.37", L=LBRDAS1/2, ANGLE=ABRDAS1/2, & E1=0, E2=ABRDAS1/2, FINT=0, FINTX=0.5, HGAP=GBSP/2, TILT=TBRDAS1 ! Note: BRDAS2 is a merge DC-bend which is either turned ON to operate ! DASEL beam in A-line, or turned OFF to operate beam in A-line from ! BSY pulsed magnets LBRDAS2 := LBSP*ABRDAS2/(2*SIN(ABRDAS2/2)) !BRDAS2 path length (m) BRDAS2a : SBEN, TYPE="1.0D38.37", L=LBRDAS2/2, ANGLE=ABRDAS2/2, & E1=ABRDAS2/2, E2=0, FINT=0.5, FINTX=0, HGAP=GBSP/2, TILT=TBRDAS2 BRDAS2b : SBEN, TYPE="1.0D38.37", L=LBRDAS2/2, ANGLE=ABRDAS2/2, & E1=0, E2=ABRDAS2/2, FINT=0, FINTX=0.5, HGAP=GBSP/2, TILT=TBRDAS2 ! define unsplit SBENs for BMAD ... not used by MAD BKRDAS1 : SBEN, TYPE="0.787K35.4", L=LBKRDAS1, ANGLE=ABKRDAS1, & E1=0, FINT=0.5, E2=ABKRDAS1, FINTX=0.5, & HGAP=GBKRDAS/2, TILT=PI/2+TBKRDAS BKRDAS2 : SBEN, TYPE="0.787K35.4", L=LBKRDAS2, ANGLE=ABKRDAS2, & E1=-ABKRDAS1 , FINT=0.5, E2=ABKRDAS12, FINTX=0.5, & HGAP=GBKRDAS/2, TILT=PI/2+TBKRDAS BKRDAS3 : SBEN, TYPE="0.787K35.4", L=LBKRDAS3, ANGLE=ABKRDAS3, & E1=-ABKRDAS12, FINT=0.5, E2=ABKRDAS13, FINTX=0.5, & HGAP=GBKRDAS/2, TILT=PI/2+TBKRDAS BKRDAS4 : SBEN, TYPE="0.787K35.4", L=LBKRDAS4, ANGLE=ABKRDAS4, & E1=-ABKRDAS13, FINT=0.5, E2=ABKRDAS14, FINTX=0.5, & HGAP=GBKRDAS/2, TILT=PI/2+TBKRDAS BKRDAS5 : SBEN, TYPE="0.787K35.4", L=LBKRDAS5, ANGLE=ABKRDAS5, & E1=-ABKRDAS14, FINT=0.5, E2=ABKRDAS15, FINTX=0.5, & HGAP=GBKRDAS/2, TILT=PI/2+TBKRDAS BKRDAS6 : SBEN, TYPE="0.787K35.4", L=LBKRDAS6, ANGLE=ABKRDAS6, & E1=-ABKRDAS15, FINT=0.5, E2=ABKRDAS, FINTX=0.5, & HGAP=GBKRDAS/2, TILT=PI/2+TBKRDAS BLRDAS : SBEN, TYPE="0.625SD38.98", L=LBLRDAS, ANGLE=ABLRDAS, & E1=0, FINT=0.5, E2=ABLRDAS, FINTX=0.5, & HGAP=GBLRDAS/2, TILT=TBKRDAS BRDAS1 : SBEN, TYPE="1.0D38.37", L=LBRDAS1, ANGLE=ABRDAS1, & E1=ABRDAS1/2, FINT=0.5, E2=ABRDAS1/2, FINTX=0.5, & HGAP=GBSP/2, TILT=TBRDAS1 BRDAS2 : SBEN, TYPE="1.0D38.37", L=LBRDAS2, ANGLE=ABRDAS2, & E1=ABRDAS2/2, FINT=0.5, E2=ABRDAS2/2, FINTX=0.5, & HGAP=GBSP/2, TILT=TBRDAS2 ! quads KQDAS1 := -0.453695580774 KQDAS2 := 0.456501974891 KQDAS11 := -0.29960177747 KQDAS12 := 0.324000602479 KQDAS13 := -0.68249002529 KQDAS14 := 0.519096986888 KQDAS17 := -0.577539463501 KQDAS18 := 0.540526371867 KQDAS19 := -0.314095531193 KQDAS15 := -KQDAS14 KQDAS16 := KQDAS14 QDAS1a : QUAD, TYPE="2Q4W", L=LQM/2, K1=KQDAS1 , APER=rQM QDAS1b : QUAD, TYPE="2Q4W", L=LQM/2, K1=KQDAS1 , APER=rQM QDAS2a : QUAD, TYPE="2Q4W", L=LQM/2, K1=KQDAS2 , APER=rQM QDAS2b : QUAD, TYPE="2Q4W", L=LQM/2, K1=KQDAS2 , APER=rQM QDAS11 : QUAD, TYPE="2Q4W", L=LQM/2, K1=KQDAS11, APER=rQM QDAS12 : QUAD, TYPE="2Q4W", L=LQM/2, K1=KQDAS12, APER=rQM QDAS13 : QUAD, TYPE="2Q4W", L=LQM/2, K1=KQDAS13, APER=rQM QDAS14 : QUAD, TYPE="2Q4W", L=LQM/2, K1=KQDAS14, APER=rQM QDAS15 : QUAD, TYPE="2Q4W", L=LQM/2, K1=KQDAS15, APER=rQM QDAS16 : QUAD, TYPE="2Q4W", L=LQM/2, K1=KQDAS16, APER=rQM QDAS17 : QUAD, TYPE="2Q4W", L=LQM/2, K1=KQDAS17, APER=rQM QDAS18a: QUAD, TYPE="2Q4W", L=LQM/2, K1=KQDAS18, APER=rQM QDAS18b: QUAD, TYPE="2Q4W", L=LQM/2, K1=KQDAS18, APER=rQM QDAS19 : QUAD, TYPE="2Q4W", L=LQM/2, K1=KQDAS19, APER=rQM ! drifts LPCBLRDAS := 0.0 !thickness of PCBLRDAS -- to be determined !!!!! ZDDASBK := 0.3 !Z-space between consecutive kickers ZDDASBLX := 18.75 +3.685 !Z-space between the last kicker and the septum ZDDASBLXa := 5.145 !set for y=5mm at BPM ZDDASBLXb := ZDDASBLX-ZDDASBLXa ZDDASBLXb2 := 0.0 !distance from PCBLRDAS to BLRDAS to be determined !!!!! ZDDASBLXb1 := ZDDASBLXb-ZDDASBLXb2-LPCBLRDAS LDDASBK1 := ZDDASBK /COS(ABKRDAS1) LDDASBK2 := ZDDASBK /COS(ABKRDAS12) LDDASBK3 := ZDDASBK /COS(ABKRDAS13) LDDASBK4 := ZDDASBK /COS(ABKRDAS14) LDDASBK5 := ZDDASBK /COS(ABKRDAS15) LDDASBLXa := ZDDASBLXa /COS(ABKRDAS) LDDASBLXb := ZDDASBLXb /COS(ABKRDAS) LDDASBLXb1 := ZDDASBLXb1/COS(ABKRDAS) LDDASBLXb2 := ZDDASBLXb2/COS(ABKRDAS) DDASBK1 : DRIF, L=LDDASBK1 DDASBK2 : DRIF, L=LDDASBK2 DDASBK3h : DRIF, L=LDDASBK3/2 DDASBK4 : DRIF, L=LDDASBK4 DDASBK5 : DRIF, L=LDDASBK5 DDASBLXa : DRIF, L=LDDASBLXa DDASBLXb : DRIF, L=LDDASBLXb DDASBLXb1 : DRIF, L=LDDASBLXb1 DDASBLXb2 : DRIF, L=LDDASBLXb2 LDUMPDAS := 0.2032 !dump length = 8" = slug length of PEP2 inj. stoppper LDDASQQ := 0.1357 LDDAS1 := 23.2085 -0.761426-0.000133 LDDAS2a := 0.5 LDDAS2b := 0.5 +0.761426-0.025296+0.000133-0.000004 LDDAS3 := 0.5 +0.025296+0.000004 dLDDAS4 := 0.0 LDDAS4 := 1.9 +dLDDAS4 dLDDAS5 := 0.765561526879E-2 LDDAS5 := 56.315-(LBLSP+LBSP)/2-4*LQM-2*LDDASQQ & -LDDAS1-LDDAS2a-LDDAS2b-LDDAS3-LDDAS4 +dLDDAS5 LDDAS5b := 12.05*0.0254 !=0.30607 per C. Clarke LDDAS5c := 1.0 LDDAS5a := LDDAS5-LDDAS5b-LDDAS5c dLDDAS11 := 0.0 LDDAS11 := 5.5-(LBSP+LQM)/2 +dLDDAS11 -0.7 LDDAS11a := 0.5 +0.300006+0.000003 LDDAS11b := LDDAS11-LDDAS11a dLDDAS12 := 0.0 LDDAS12 := 14.1 +dLDDAS12 +0.7 LDDAS12a := 1.5 LDDAS12b := 9.877925-LDDAS12a-LDUMPDAS/2 LDDAS12c := LDDAS12-LDDAS12a-LDDAS12b-LDUMPDAS LDDAS13 := 18.128190337721 +0.5 !LDDAS13a := 2.97 !LDDAS13b := LDDAS13-LDDAS13a LDDAS14 := 18.128190337721 -0.5+0.79997 LDDAS14b := 0.5 LDDAS14a := LDDAS14-LDDAS14b LDDAS14aa := 14.473260664942 -0.5 !set Z=3050.512000 m at WOODDOOR LDDAS14ab := LDDAS14a-LDDAS14aa LDDAS17 := 18.128190337721 -0.79997 LDDAS17b := 0.5 LDDAS17c := 0.5 LDDAS17a := LDDAS17-LDDAS17b-LDDAS17c LDDAS18 := 15.540177251451 dLDDAS19 := 0.0 LDDAS19 := 9.24017725092-LDDASQQ-LQM +dLDDAS19 dLDDAS20 := 0.0 LDDAS20 := 22.55-(LBSP+LQM)/2 +dLDDAS20 LDDAS20a := 0.5 -0.05163 LDDAS20b := LDDAS20-LDDAS20a dLDDAS := 0.0 LDDAS := (158.566506190974298-10*LQM-LBSP-LDDASQQ-LDDAS11-LDDAS12 & -LDDAS13-LDDAS14-LDDAS17-LDDAS18-LDDAS19-LDDAS20)/2 +dLDDAS LDDAS15 := LDDAS LDDAS15a := LDDAS/2 -0.79997 LDDAS15b := LDDAS15-LDDAS15a LDDAS16 := LDDAS DDASQQ : DRIF, L=LDDASQQ DDAS1 : DRIF, L=LDDAS1 DDAS2a : DRIF, L=LDDAS2a DDAS2b : DRIF, L=LDDAS2b DDAS3 : DRIF, L=LDDAS3 DDAS4 : DRIF, L=LDDAS4 DDAS5a : DRIF, L=LDDAS5a DDAS5b : DRIF, L=LDDAS5b DDAS5c : DRIF, L=LDDAS5c DDAS11a : DRIF, L=LDDAS11a DDAS11b : DRIF, L=LDDAS11b DDAS12a : DRIF, L=LDDAS12a DDAS12b : DRIF, L=LDDAS12b DDAS12c : DRIF, L=LDDAS12c DDAS13 : DRIF, L=LDDAS13 DDAS14a : DRIF, L=LDDAS14a DDAS14aa : DRIF, L=LDDAS14aa DDAS14ab : DRIF, L=LDDAS14ab DDAS14b : DRIF, L=LDDAS14b DDAS15a : DRIF, L=LDDAS15a DDAS15b : DRIF, L=LDDAS15b DDAS16 : DRIF, L=LDDAS16 DDAS17a : DRIF, L=LDDAS17a DDAS17b : DRIF, L=LDDAS17b DDAS17c : DRIF, L=LDDAS17c DDAS18 : DRIF, L=LDDAS18 DDAS19 : DRIF, L=LDDAS19 DDAS20a : DRIF, L=LDDAS20a DDAS20b : DRIF, L=LDDAS20b ! roll angles ARODAS1 := 0.523790078614E-5 ARODAS2 := 0.387294376318E-4 ARODAS3 := -0.229813948141E-4 RODAS1 : SROT, ANGLE=ARODAS1 RODAS2 : SROT, ANGLE=ARODAS2 RODAS3 : SROT, ANGLE=ARODAS3 ! monitors BPMDAS : MONI, TYPE="Stripline-5" !not rolled BPMDAS1 : MONI, TYPE="Stripline-5" !MPS BPM BPMDAS19 : MONI, TYPE="Stripline-5" !MPS BPM ! steering correctors ! Notes: trims on all bends are used as correctors as well, ! rolled correctors are rolled 90 deg relative to rolled bends XCDAS1 : HKIC, TYPE="class-4" XCDAS14 : HKIC, TYPE="class-4" YCDAS1 : VKIC, TYPE="class-4" YCDAS17 : VKIC, TYPE="class-4" RCDAS11 : HKIC, TYPE="class-4" RCDAS19 : HKIC, TYPE="class-4" ROLLRC := +1 !+1 for survey to show RC roll angle, but zero for twiss RODAS11P : SROT, ANGLE=(TBRDAS1-PI/2) *ROLLRC RODAS11M : SROT, ANGLE=-RODAS11P[ANGLE] RODAS19P : SROT, ANGLE=(TBRDAS2-PI/2) *ROLLRC RODAS19M : SROT, ANGLE=-RODAS19P[ANGLE] ! profile monitors PRDAS12 : PROF, TYPE="PHOSPHOR" PRDAS14 : PROF, TYPE="PHOSPHOR" PRDAS17 : PROF, TYPE="PHOSPHOR" ! ACMs IMDAS1 : IMON, TYPE="BCS ACM" IMDAS2 : IMON, TYPE="BCS ACM" ! collimator in front of BLRDAS septum ! * this collimator should be attached to or be very close to the entrance ! of the septum aperture with the non-zero field ! * the collimator length (thickness) is to be determined !!!!! ! * it protects against large amplitude errant electrons which may enter ! the septum field aperture through turned off SXR and S30XL kickers ! * the collimator may look like a shielding plate or a jaw covering ! the very bottom of the field aperture ! * only the bottom jaw is needed ! * it should not interfere with the no-field aperture ! * the collimator X,Y sizes are relative to the beam center in the septum ! field aperture ! * the vertical size is determined by maximum Y-coordinate of errant electrons ! at the septum entrance (=9.487mm measured from unkicked trajectory) ! * horizontal size is sufficient for the expected range of the ! electron horizontal angles; a larger horizontal size is ok PCBLRDAS : RCOL, TYPE="VCOLL", L=LPCBLRDAS/COS(ABKRDAS), & YSIZE=5.5E-3, XSIZE=10.E-3 ! stage-A dump (reused PEP2 inj. stopper with 8" slug length per Alev) DUMPDAS : INST, TYPE="400W-dump", L=LDUMPDAS/2 !half-dump !DUMPDAS : MONI, TYPE="400W-dump", L=LDUMPDAS/2 !half-dump ! markers BEGDASEL : MARK ENDDASEL : MARK ! ------------------------------------------------------------------------------ ! A-line adjustments ! ------------------------------------------------------------------------------ ! quad strengths (also copy to SETK2scDA subroutine) COMMENT !causes redefinitions when using SETK2scDA KQ10 := 0.04034296448 KQ11 := -0.03865438496 KQ19 := 0.030550055348 KQ20 := -0.125475886882E-2 KQ27 := -0.074785603391 KQ28 := 0.041188876983 KQ30 := -0.029276530035 KQ38 := 0.034027229146 ENDCOMMENT ! ------------------------------------------------------------------------------ ! beamlines BKRDAS1_full : LINE=(BKRDAS1a,BKRDAS1b) BKRDAS2_full : LINE=(BKRDAS2a,BKRDAS2b) BKRDAS3_full : LINE=(BKRDAS3a,BKRDAS3b) BKRDAS4_full : LINE=(BKRDAS4a,BKRDAS4b) BKRDAS5_full : LINE=(BKRDAS5a,BKRDAS5b) BKRDAS6_full : LINE=(BKRDAS6a,BKRDAS6b) BLRDAS_full : LINE=(BLRDASa,BLRDASb) BRDAS1_full : LINE=(BRDAS1a,BRDAS1b) BRDAS2_full : LINE=(BRDAS2a,BRDAS2b) QDAS1b_full : LINE=(QDAS1b,QDAS1b) QDAS1a_full : LINE=(QDAS1a,QDAS1a) QDAS2a_full : LINE=(QDAS2a,QDAS2a) QDAS2b_full : LINE=(QDAS2b,QDAS2b) QDAS11_full : LINE=(QDAS11,QDAS11) QDAS12_full : LINE=(QDAS12,QDAS12) QDAS13_full : LINE=(QDAS13,QDAS13) QDAS14_full : LINE=(QDAS14,QDAS14) QDAS15_full : LINE=(QDAS15,QDAS15) QDAS16_full : LINE=(QDAS16,QDAS16) QDAS17_full : LINE=(QDAS17,QDAS17) QDAS18a_full : LINE=(QDAS18a,QDAS18a) QDAS18b_full : LINE=(QDAS18b,QDAS18b) QDAS19_full : LINE=(QDAS19,QDAS19) DUMPDAS_full : LINE=(DUMPDAS,DUMPDAS) ! stage-A and stage-B with dump in sector-30 DASELSA : LINE=(& BKRDAS1_full,DDASBK1 ,& BKRDAS2_full,DDASBK2 ,& BKRDAS3_full,DDASBK3h,DDASBK3h,& BKRDAS4_full,DDASBK4 ,& BKRDAS5_full,DDASBK5 ,& BKRDAS6_full,DDASBLXa,BPMDAS ,DDASBLXb1,PCBLRDAS,DDASBLXb2,& BLRDAS_full ,RODAS1 ,DDAS1 ,& XCDAS1 ,DDAS2a ,& YCDAS1 ,DDAS2b ,& BPMDAS1 ,DDAS3 ,& QDAS1b_full,DDASQQ ,& QDAS1a_full,DDAS4 ,& QDAS2a_full,DDASQQ ,& QDAS2b_full,DDAS5a ,IMDAS1 ,DDAS5b ,IMDAS2 ,DDAS5c ,& BRDAS1_full,RODAS2 ,DDAS11a ,& RODAS11P,RCDAS11 ,RODAS11M,DDAS11b,& QDAS11_full,DDAS12a ,PRDAS12 ,DDAS12b ,DUMPDAS_full) DASELSB : LINE=(& DDAS12c ,& QDAS12_full ,DDAS13 ,& QDAS13_full ,DDAS14aa,WOODDOOR,DDAS14ab,XCDAS14,DDAS14b,& QDAS14_full ,DDAS15a ,PRDAS14 ,DDAS15b ,& QDAS15_full ,DDAS16 ,& QDAS16_full ,DDAS17a ,PRDAS17 ,DDAS17b ,YCDAS17,DDAS17c,& QDAS17_full ,DDAS18 ,& QDAS18a_full,DDASQQ ,& QDAS18b_full,DDAS19 ,& QDAS19_full ,DDAS20a ,BPMDAS19,DDAS20b ,RODAS3 ,& BRDAS2_full) ! ------------------------------------------------------------------------------ ! stage-A and stage-B with dump in BSY (alternative design) COMMENT DDAS12bc : DRIF, L=LDDAS12b+LDDAS12c+LDUMPDAS DDAS14ab1 : DRIF, L=2.688023-LDUMPDAS/2 DDAS14ab2 : DRIF, L=LDDAS14ab-DDAS14ab1[L]-LDUMPDAS DASELSA : LINE=(& BKRDAS1_full,DDASBK1 ,& BKRDAS2_full,DDASBK2 ,& BKRDAS3_full,DDASBK3h,DDASBK3h,& BKRDAS4_full,DDASBK4 ,& BKRDAS5_full,DDASBK5 ,& BKRDAS6_full,DDASBLXa,BPMDAS ,DDASBLXb1,PCBLRDAS,DDASBLXb2,& BLRDAS_full ,RODAS1 ,DDAS1 ,& XCDAS1 ,DDAS2a ,& YCDAS1 ,DDAS2b ,& BPMDAS1 ,DDAS3 ,& QDAS1b_full ,DDASQQ ,& QDAS1a_full ,DDAS4 ,& QDAS2a_full ,DDASQQ ,& QDAS2b_full ,DDAS5a ,IMDAS1 ,DDAS5b ,IMDAS2 ,DDAS5c ,& BRDAS1_full ,RODAS2 ,DDAS11a ,& RODAS11P,RCDAS11 ,RODAS11M,DDAS11b,& QDAS11_full ,DDAS12a ,PRDAS12 ,DDAS12bc,& QDAS12_full ,DDAS13 ,& QDAS13_full ,DDAS14aa,WOODDOOR,DDAS14ab1,DUMPDAS,DUMPDAS) DASELSB : LINE=(& DDAS14ab2,XCDAS14,DDAS14b ,& QDAS14_full ,DDAS15a ,PRDAS14 ,DDAS15b ,& QDAS15_full ,DDAS16 ,& QDAS16_full ,DDAS17a ,PRDAS17 ,DDAS17b ,YCDAS17,DDAS17c,& QDAS17_full ,DDAS18 ,& QDAS18a_full,DDASQQ ,& QDAS18b_full,DDAS19 ,& QDAS19_full ,DDAS20a ,BPMDAS19,DDAS20b ,RODAS3 ,& BRDAS2_full) ENDCOMMENT ! ------------------------------------------------------------------------------ DASEL : LINE=(DASELSA,DASELSB) DASELA : LINE=(BEGDASEL,DASEL,& DA04b,RODAS19P,RCDAS19,RODAS19M,ENDDASEL,ALINEc) SPDASELA : LINE=(SPRDkh,SPRDks,SPRDda,DASELA) ! ------------------------------------------------------------------------------ RETURN