* $Id: btofgeo2.g,v 1.13 2005/08/04 23:39:24 potekhin Exp $ * * btofgeo2.g is the geometry to contain TOFp+r and the CTB * $Log: btofgeo2.g,v $ * Revision 1.13 2005/08/04 23:39:24 potekhin * A very old bug, with BLEM having zero sizes and being * neve properly sized. Since this volume effectively * didn't exist, for that reason, we are now removing * it altogether, to avoid annoying error messages * when running VMC software * * Revision 1.12 2005/05/23 14:56:15 llope * removed unneeded Dens=0.282 statements from honeycomb Material definitions * * Revision 1.11 2004/07/08 01:44:09 potekhin * Restoring previosu version since I decided that Frank's * correction should go into a separate file number 3 * * Revision 1.9 2004/03/16 18:10:23 llope * fixed posit1 pieces and added comments for readabilityd * * Revision 1.8 2004/03/12 20:32:29 llope * only added print statement to confirm "choice" selection at run-time * * Revision 1.7 2004/02/25 19:21:33 llope * fine-tuning TOFp and TOFr for Run-IV - use choice=7 for these * * Revision 1.6 2004/02/12 18:59:56 llope * modifications for run4 MRPC positioning inside TOFr-prime * * Revision 1.6 2004/02/12 12:00:00 llope modifications for run4 * * ******************************************************************************* Module BTOFGEO2 is the Geometry of Barrel Trigger / Time Of Flight system ******************************************************************************* Author W.J. Llope Created 29 December 1999 *---Version 3------------------------------------------------------------------ * modified 29 Dec 1999, WJL- many changes to implement actual "TOFp Detector" * better HVSys cell geometry.... * slat length now 20cm... * big changes to divisioning scheme for phi segmentation!!! * slat positioning based on AutoCAD file... * foam-support plastic angles included... * FEE dimensioning updated, FEE posns from AutoCAD, including lemo connectors... * modified ~9 Apr 2000 PN?- rearranged phi segmentation scheme * modified 27 Apr 2000 FG- removed posit2 from BTOG structure * FG- increased version number to 3 * FG- default TOF_choice is now 4 (single-tray TOF) * 04 May 2000 FG- removed the (unused) BMTM block * 27 Jul 2000 FG- TOFp is now on the EAST side, position 32 * 22 Nov 2000 PN- tof geometry versions 1 and 2 preserved * in tofgeo1, version 3 goes in btofgeo2 * 08 Feb 2001 FG- final positions of the slats and FEE boards * 20 Feb 2001 FG- fixed bug in outer CTB slab dimensioning, * water in TOFp cooling loops * 03 Apr 2001 GE- add BRTC and BRMD for TOFr * 28 May 2002 GE- Change the Geometry of TOFr(S.L. Huang) * 10 Jun 2002 GE- add BRSG BUPC BRFE on geometry & change the * sensitive volume to gas layers * Oct/Nov 2002 SY/SH/FG - many, many updates * 26 Nov 2002 FG - posit2 reintroduced. TOFr is now at * pos.23. New TOF_choices are 5 (single * TOFp+single TOFr tray) and 6 (full TOFr * system) * 04 Dec 2002 FG - modr structure changed. Position arrays * introduced for the TOFr geometry. Common * material definitions moved to the top. * 12 Feb 2004 WJL- modifications for run-4 TOFr' geometry * 23 Feb 2004 WJL- fine-tuning of run-4 geometry * use choice==7 for run-4 * BTOG_posit1b reflects move of TOFp in run-IV * * ******************************************************************************* +CDE,AGECOM,GCUNIT,GCONST. * * List of GEANT volumes: note BLEM was removed 20050804 due to the ancient bug * which assigned null size to it, so it doesn't matter anyway Content BTOF,BTOH,BSEC,BTRA,BUND,BTFT,BASE,BARM,BANG, BWAT,BCOV,BXTR,BMTC,BTTC,BMAA,BMTD, BASS,BXSA,BCSB,BCCV,BFEE, BCPM,BCSK,BTSK,BZEL,BCEL,BCEB,BCON,BPLA, BCOO,BRAI,BPIP,BPIQ, BRTC,BRMD,BRHC,BRCB,BRMY,BRGR,BROG, BRDT,BRSG,BRIG,BRWG, BRFE,BUPC,BGMT * * Data Base interface staff: Structure BTOG { Version, Rmin, Rmax, dz, choice, posit1(2), posit2 } * Structure TRAY { Height, Width, Length, WallThk, SupFullH, SupFullW, SupLen, SupBaseT, SupBaseW, SupArmT, CoolOutR, CoolInnR, StripT , FootInse, FootThk, Foot1Len, Foot2Thk, Foot3Len} * Structure CTBB { Slab1Len, Slab2Len, Slab1x, Slab2x, SlabThck, SlabWid, ConvLen, ConvWidM, ConvThck, PmtLen, PmtMaxR, PmtMinR, BaseLen, BaseMaxR, BaseMinR, ElecThck, Wrap, Shim } * Structure TOFF { BoxWidth, SlatLen, Slat01z, Slat02z, Slat03z, Slat04z, Slat05z, Slat06z, Slat07z, Slat08z, Slat09z, Slat10z, SlatThck, SlatWid, SlatAng, PmtLen, PmtMaxR, PmtMinR, BaseLen, BaseMaxR, BaseMinR, SockLen, CellWid, CellHgt, ElecHgt, ElecThck, ElecWid, ElecLen, Elec01z, Elec02z, Elec03z, Elec04z, Elec05z, Elec06z, Elec07z, Elec08z, Elec09z, Elec10z, RailThck, RailWid, CoolInnR, CoolOutR } * Structure MODR { Height, Width, Length,Center, mrpcX(33), mrpcZ(33), mrpcA(33), HCHgt, HCWid, HCLen, PCBHgt, PCBWid, PCBLen, MYHgt, MYWid, MYLen, GRHgt, GRWid, GRLen, OGHgt, OGWid, OGLen, IGHgt, IGWid, IGLen, SPRMin, SPRMax, SPLen, WGRMin, WGRMax, WGLen, FEEH, HBWid, NGap } * Structure MOD4 { Height, Width, Length, Center, mrpcX(32), mrpcZ(32), mrpcA(32), HCHgt, HCWid, HCLen, PCBHgt, PCBWid, PCBLen, MYHgt, MYWid, MYLen, GRHgt, GRWid, GRLen, OGHgt, OGWid, OGLen, IGHgt, IGWid, IGLen, SPRMin, SPRMax, SPLen, WGRMin, WGRMax, WGLen, FEEH, HBWid, NGap, TrayEdgeZ } * real support_arm_width, support_arm_Xpos, support_arm_Ypos, support_aile_width, support_aile_Ypos, xpos, ypos, zpos, totlen, sublen, subcen, x0, z0, Y, Z, DTHgt, DetSide integer i,is, choice, tof, iwid, igap * * ------------------------------------------------------------------------- * Fill BTOG ! Barrel Trigger, CTB/TOF Basic dimensions Version = 5 ! geometry version Rmin = 207.80 ! minimum CTB/TOF system radius (as built) Rmax = 219.5 ! maximum CTB/TOF system radius dz = 246.0 ! CTB/TOF tube half length choice = 7 ! 1=CTB, 2=Full-TOFp, 3=25% TOFp, 4=1 tray-TOFp, ! 5=1 tray-TOFr, 6=Full-TOFr, 7=TOFp+TOFrp Run-IV posit1 = {32,33} ! TOFp tray position: (0) choice 4 or 5 -> run-2,3 posn, ! (1) choice 7 -> run-4 posn posit2 = 23 ! TOFr tray position for choice 5 * Fill TRAY ! general tray stats Height = 8.89 ! tray height(8.89) Width = 21.59 ! full tray width Length = 241.62 ! full tray length(241.62) WallThk = 0.13 ! tray wall thickness SupFullH = 2.03 ! support height (radial) SupFullW = 15.24 ! support full width with arms SupLen = 215.9 ! support length SupBaseW = 9.22 ! support base width SupBaseT = 0.32 ! support base thickness SupArmT = 0.64 ! support arm thickness CoolOutR = 0.80 ! Cooling channel outer radius CoolInnR = 0.48 ! Cooling channel inner radius StripT = 0.08 ! Thickness of polyethylene strip on bottom FootInse = 1.06 ! foot inset from tray edge FootThk = 0.23 ! thickness of foot material Foot1len = 1.68 ! length (in section) of first part of foot Foot2Thk = 1.16 ! thickness of second foot section Foot3Len = 2.16 ! length of third part of foot * Fill CTBB ! barrel trigger stats Slab1Len = 112.5 ! first slab (B) length Slab2Len = 130.0 ! second slab (A)length Slab1x = 5.84 ! first slab (B) x position Slab2x = 2.67 ! second slab (A) x position SlabThck = 1.0 ! scintillator slab thicknesses SlabWid = 21.0 ! scintillator slab width ConvLen = 8.5 ! optical converter length ConvWidM = 4.0 ! optical convertor min width ConvThck = 0.92 ! optical convertor thickness PmtLen = 5.0 ! PMT length PmtMaxR = 2.0 ! PMT max radius PmtMinR = 1.84 ! PMT min radius BaseLen = 4.0 ! Base length BaseMaxR = 2.13 ! Base max radius baseMinR = 1.0 ! Base min radius ElecThck = 0.25 ! readout electronics thickness Wrap = 0.13 ! thickness of Tyvek + black plastic Shim = 0.26 ! thickness of shim to position slat 2 * Fill TOFF ! time of flight stats BoxWidth = 21.0875 ! width of the 5w box (BMTD) SlatLen = 20.0 ! slat length Slat01z = 104.938 ! 5_wide_slat Z position for row 1 from AutoCAD Slat02z = 84.060 ! 4_wide_slat Z position for row 2 from AutoCAD Slat03z = 62.860 ! 4_wide_slat Z position for row 3 from AutoCAD Slat04z = 41.254 ! 4_wide_slat Z position for row 4 from AutoCAD Slat05z = 18.966 ! 4_wide_slat Z position for row 5 from AutoCAD Slat06z = -3.954 ! 4_wide_slat Z position for row 6 from AutoCAD Slat07z = -27.528 ! 4_wide_slat Z position for row 7 from AutoCAD Slat08z = -51.254 ! 4_wide_slat Z position for row 8 from AutoCAD Slat09z = -75.634 ! 4_wide_slat Z position for row 9 from AutoCAD Slat10z = -100.683 ! 4_wide_slat Z position for row 10 from AutoCAD SlatThck = 2.0 ! scintillator slab thicknesses SlatWid = 3.81 ! scintillator slab width (4.0) SlatAng = 11.5 ! slat assy. angle w.r.t. tray PmtLen = 5.0 ! PMT length PmtMaxR = 1.91 ! PMT max radius PmtMinR = 1.8 ! PMT min radius SockLen = 1.0 ! thickness of socket BaseLen = 5.0 ! Base length BaseMaxR = 1.91 ! Base max radius baseMinR = 1.8 ! Base min radius CellWid = 3.1 ! Cell width CellHgt = 1.6 ! Cell height ElecHgt = 3.0 ! FEE Board height in tray... (rails/loop too). ElecThck = 0.17 ! FEE Board thickness (67 mils) ElecWid = 20.3 ! FEE Board width (was 21) ElecLen = 5.715 ! FEE Board length (was 16) Elec01z = 105.610 ! FEE Z position for row 1 from AutoCAD Elec02z = 84.573 ! FEE Z position for row 2 from AutoCAD Elec03z = 63.224 ! FEE Z position for row 3 from AutoCAD Elec04z = 41.667 ! FEE Z position for row 4 from AutoCAD Elec05z = 19.379 ! FEE Z position for row 5 from AutoCAD Elec06z = -3.542 ! FEE Z position for row 6 from AutoCAD Elec07z = -27.165 ! FEE Z position for row 7 from AutoCAD Elec08z = -50.841 ! FEE Z position for row 8 from AutoCAD Elec09z = -75.170 ! FEE Z position for row 9 from AutoCAD Elec10z = -100.270 ! FEE Z position for row 10 from AutoCAD RailThck = 0.2 ! Cooling loop rail thickness RailWid = 1.5 ! Cooling loop rail width CoolOutR = 0.635 ! Cooling loop pipe outer radius, 0.5in/2 CoolInnR = 0.561 ! Cooling loop pipe inner radius, (0.5in-0.058in)/2 * Fill MODR ! RUN3 MRPC TOF Module dimensions and positions Height = 1.95 ! Module height (r) Width = 21.2 ! Module width (phi) Length = 9.4 ! Module length (z) Center = 0.35 ! Module detector center in (phi) mrpcX = { 4.76, 1.21, 4.99, 1.46, 5.19, 1.71, 4.98, 1.54, 2.69, 3.39, 3.25, 3.49, 3.33, 3.54, 3.54, 3.57, 3.48, 3.51, 3.19, 3.19, 3.19, 3.19, 3.19, 3.43, 3.43, 3.43, 3.43, 3.43, 3.43, 3.43, 3.43, 3.43, 3.43 } ! mrpc Xpositions mrpcZ = { 4.50, 10.48, 16.83, 22.64, 29.25, 34.89, 41.68, 47.19, 53.76, 60.18, 66.53, 72.95, 79.42, 85.97, 92.59, 99.28, 106.00, 112.84, 119.60, 126.66, 133.80, 141.06, 148.43, 156.09, 163.71, 171.46, 179.35, 187.38, 195.56, 203.84, 212.33, 220.94, 229.7 } ! mrpc Zpositions mrpcA = { 1.20, 2.84, 4.48, 6.12, 7.74, 9.36, 10.97, 7.60, 14.30, 22.30, 22.30, 22.30, 22.30, 22.30, 22.30, 22.30, 22.30, 22.30, 33.00, 33.00, 33.00, 33.00, 33.00, 37.58, 37.58, 37.58, 37.58, 37.58, 37.58, 37.58, 37.58, 37.58, 37.58 } ! mrpc angles HCHgt = 0.466 ! HC->Height (r) HCWid = 20.8 ! HC->Width (phi) HCLen = 8.4 ! HC->Length (z) PCBHgt = 0.15 ! PCB->Height (r) PCBWid = 21.0 ! PCB->Width (phi) PCBLen = 9.4 ! PCB->Length (z) *PCBLen = 9.4(real) MYHgt = 0.035 ! MYlar->Height MYWid = 21.2 ! MYlar->Width MYLen = 8.4 ! MYlar->Length GRHgt = 0.013 ! GRaphite->Height GRWid = 20.2 ! GRaphite->Width GRLen = 7.4 ! GRaphite->Length OGHgt = 0.11 ! Outer Glass->Height OGWid = 20.6 ! Outer Glass->Width OGLen = 7.8 ! Outer Glass->Length IGHgt = 0.054 ! Inner Glass->Height IGWid = 20.0 ! Inner Glass->Width IGLen = 6.1 ! Inner Glass->Length SPRMin = 0. ! SeParator Tube->RMin SPRMax = 0.011 ! SeParator Tube->RMax SPLen = 7.8 ! SeParator Tube->Length WGRMin = 0. ! Wedge Tube: RMin WGRMax = 0.15 ! Wedge Tube->RMax WGLen = 10.0 ! Wedge Tube->Length FEEH = 0.15 ! tofr fee pcb thickness HBWid = 0.635 ! the slim honeycomb support box width NGap = 6 ! Number of gaps in MRPC EndFill * NPad = 6 ! Number of pads within a MRPC * Fill MOD4 ! RUN4 MRPC TOF Module dimensions and positions Height = 1.95 ! Module height (r) Width = 21.2 ! Module width (phi) Length = 9.4 ! Module length (z) Center = 0.35 ! Module detector center (phi) mrpcZ = { 5.83, 11.97, 18.17, 24.03, 30.55, 36.22, 42.54, 48.87, 55.19, 61.53, 67.86, 74.24, 80.68, 87.08, 93.64, 100.36, 107.19,114.05,121.02,128.08,135.24,142.51,149.88,157.35, 164.93,172.63,180.43,188.35,196.38,204.52,212.79,221.17 } ! mrpc Zposns mrpcX = { 1.5, 2.83, 4.16, 1.55, 4.73, 1.88, 2.56, 3.06, 3.3, 3.41, 3.32, 3.2, 3.07, 2.73, 2.58, 2.64, 2.74, 2.74, 2.76, 2.76, 2.76, 2.76, 2.76, 2.76, 2.76, 2.76, 2.76, 2.76, 2.76, 2.76, 2.76, 2.76 } ! mrpc Xposns mrpcA = { 6., 6., 6., 6., 0., 12., 12., 16., 16., 19., 19., 19., 19., 24., 24., 25., 27., 29., 30., 30., 30., 30., 30., 30., 30., 30., 30., 30., 30., 30., 30., 30. } ! mrpc angles HCHgt = 0.466 ! HC->Height (r) HCWid = 20.8 ! HC->Width (phi) HCLen = 8.4 ! HC->Length (z) PCBHgt = 0.15 ! PCB->Height (r) PCBWid = 21.0 ! PCB->Width (phi) PCBLen = 9.4 ! PCB->Length (z) *PCBLen = 9.4(real) MYHgt = 0.035 ! MYlar->Height MYWid = 21.2 ! MYlar->Width MYLen = 8.4 ! MYlar->Length GRHgt = 0.013 ! GRaphite->Height GRWid = 20.2 ! GRaphite->Width GRLen = 7.4 ! GRaphite->Length OGHgt = 0.11 ! Outer Glass->Height OGWid = 20.6 ! Outer Glass->Width OGLen = 7.8 ! Outer Glass->Length IGHgt = 0.054 ! Inner Glass->Height IGWid = 20.0 ! Inner Glass->Width IGLen = 6.1 ! Inner Glass->Length SPRMin = 0. ! SeParator Tube->RMin SPRMax = 0.011 ! SeParator Tube->RMax SPLen = 7.8 ! SeParator Tube->Length WGRMin = 0. ! Wedge Tube: RMin WGRMax = 0.15 ! Wedge Tube->RMax WGLen = 10.0 ! Wedge Tube->Length FEEH = 0.15 ! tofr fee pcb thickness HBWid = 0.635 ! the slim honeycomb support box width NGap = 6 ! Number of gaps in MRPC TrayEdgeZ = (3.0*2.54)+1.0 ! tray posn along rail wrt TPC centerplane (Z) EndFill * NPad = 6 ! Number of pads within a MRPC * USE BTOG USE TRAY USE CTBB USE TOFF USE MODR USE MOD4 * * --- * G10 material definition for PCBs Component Si A=28.08 Z=14 W=0.6*1*28./60. Component O A=16 Z=8 W=0.6*2*16./60. Component C A=12 Z=6 W=0.4*8*12./174. Component H A=1 Z=1 W=0.4*14*1./174. Component O A=16 Z=8 W=0.4*4*16./174. Mixture G10 Dens=1.7 * --- * RPCgas material for TOFr gas Component H A=1 Z=1 W=0.90*2*1./102. + 0. + 0.05*10*1./58. Component C A=12 Z=6 W=0.90*2*12./102. + 0. + 0.05*4*12./58. Component F A=19 Z=9 W=0.90*4*19./102. + 0.05*6*19./146. + 0. Component S A=32 Z=16 W=0. + 0.05*1*32./146. + 0. Mixture RPCgas Dens=4.55E-3 * --- Component Al A=27 Z=13 W=0.0105 Component N A=14 Z=7 W=0.7395 Component Adhesive A=9 Z=4.5 W=0.2500 Mixture HoneyComb Dens=0.282 * --- * Create and Position BTOF in Cave * ******************************************************************************* * Rotate the +z half of the tube so that the phi divisions run clockwise * for each half of the detector when viewed from outside. The direction of * increasing z is then toward eta=0 in each half. * Block BTOF is the whole CTF system envelope Attribute BTOF seen=1 colo=1 Material Air Medium Standard Shape Tube rmin=btog_Rmin Rmax=btog_Rmax dz=btog_dz if (btog_choice == 7) print *,' TOF: btog_choice=7: This is the Run-IV geometry...' choice = 1 ! ctb if (btog_choice == 2) choice=btog_choice ! full tofp if (btog_choice == 6) choice=btog_choice ! full tofr ! print *,' Positioning West Barrel, choice=',choice DetSide = 1; Create and Position BTOH z=+btog_dz/2 alphay=180 ! West barrel choice=btog_choice ! print *,' Positioning East Barrel, choice=',choice DetSide = 2; Create and Position BTOH z=-btog_dz/2 ! East barrel EndBlock * *------------------------------------------------------------------------------ * BSEC only is needed to model a system that contains both TOF and CTB * In the event that z symmetry is broken, two copies of BTOH/BSEC * with DIFFERENT names are automatically created by AGI * Block BTOH is a half of trigger system (west-east) Attribute BTOH seen=0 colo=1 serial=choice Shape Tube dz=btog_dz/2 ! tof=0 means ctb, tof=1 means TOFp, tof=2 means TOFr, tof=3 means TOFr' do is=1,60 tof=0 !-> all CTB for choice=1 if (choice==2) tof=1 !-> all TOFp if (choice==3 & 46<=is&is<=60) tof=1 !-> big TOFp patch, rest CTB if (choice==4 & is==btog_posit1(1)) tof=1 !-> Run-2 (one TOFp tray) if (choice==5 & is==btog_posit1(1)) tof=1 !-> Run-3 (one TOFp tray if (choice==5 & is==btog_posit2) tof=2 ! and one TOFr tray) if (choice==6) tof=2 !-> all TOFr if (choice==7 & is==btog_posit1(2)) tof=1 !-> Run-4 (one TOFp tray moved 1 slot if (choice==7 & is==btog_posit2) tof=3 ! and one TOFrp tray) ! print *,' Positioning Tray, choice,is,tof=',choice,is,tof if (DetSide.eq.2.and.is.eq.28) { ! do nothing, Crystal Detector is here } else { Create and Position BSEC alphaz = 102+6*is } enddo EndBlock * *------------------------------------------------------------------------------ Block BSEC is a sector of CTB/TOF Trigger Barrel Scintillators Attribute BSEC seen=0 colo=1 serial=tof Shape Tubs phi1 = -3.0 phi2 = 3.0 Create and Position BTRA X = _ btog_Rmin+(tray_SupFullH+tray_height+tray_StripT)/2 if(tof==2) then Create and Position BRFE X = _ btog_Rmin+tray_SupFullH+tray_StripT+tray_height+modr_feeh/2, z=(btog_dz-tray_length)/2 endif EndBlock * *------------------------------------------------------------------------------ * remember that volume attributes are inherited, no need to redefine serial * Block BTRA is one full tray plus supporting structure for CTB/TOF Attribute BTRA seen=1 colo=2 Shape BOX dx=(tray_SupFullH+tray_height+tray_StripT)/2, dy=tray_Width/2 Create and Position BXTR X=(tray_SupFullH+tray_StripT)/2, z=(btog_dz-tray_length)/2 Create and Position BUND X=-(tray_height+tray_StripT)/2, z=(btog_dz-tray_SupLen)/2 EndBlock * *------------------------------------------------------------------------------ * Block BRFE is the FEE of tofr (run-3) Attribute BRFE seen=0 colo=3 Material G10 Shape BOX dx=modr_feeh/2, dy=tray_Width/2, dz=tray_Length/2 EndBlock * *------------------------------------------------------------------------------ * Block BXTR is a Main TRay covering box for CTB or TOF Attribute BXTR seen=0 colo=2 Material Aluminium Shape BOX dx=tray_height/2, dz=tray_length/2 if (tof==1) then Create and Position BTTC else if (tof>=2) then Create and Position BRTC Create and Position BUPC X=(tray_Height-tray_WallThk)/2 else Create and Position BMTC endif EndBlock * *------------------------------------------------------------------------------ * Block BMTC is the Main Tray Cavity filled with the details for CTB Attribute BMTC seen=-1 colo=5 Material Air Shape BOX dx=tray_height/2-tray_WallThk, dy=tray_Width/2-tray_WallThk, dz=tray_Length/2-tray_WallThk * *---- inner slab + readout zpos = (tray_length-ctbb_Slab1Len)/2-tray_WallThk-ctbb_Wrap xpos = -tray_Height/2+ctbb_Slab1x Create and Position BXSA dx=ctbb_SlabThck/2 , dy=ctbb_SlabWid/2 , dz=ctbb_Slab1Len/2, X=xpos Z=zpos zpos = zpos - (ctbb_Slab1Len + ctbb_ConvLen)/2 Create and Position BCCV X=xpos Z=zpos, Dx1=ctbb_SlabThck/2 Dx2=ctbb_SlabThck/2, Dy1=ctbb_ConvWidM/2 Dy2=ctbb_SlabWid/2 dz=ctbb_ConvLen/2 zpos = zpos - (ctbb_ConvLen + ctbb_PmtLen)/2 Create and Position BCPM X=xpos Z=zpos, Rmin=ctbb_PmtMinR Rmax=ctbb_PmtMaxR Dz=ctbb_PmtLen/2 zpos = zpos - (ctbb_PmtLen + ctbb_BaseLen)/2 Create and Position BCSK X=xpos Z=zpos, Rmin=ctbb_BaseMinR Rmax=ctbb_BaseMaxR Dz=ctbb_BaseLen/2 Create and Position BZEL X=xpos Z=zpos dx=ctbb_ElecThck/2, dy=ctbb_BaseMinR-0.1 dz=ctbb_BaseLen/2 * *---- outer slab + readout zpos = (tray_length-ctbb_Slab2Len)/2-tray_WallThk-ctbb_Wrap-ctbb_Shim xpos = -tray_Height/2+ctbb_Slab2x Create and Position BXSA dx=ctbb_SlabThck/2, dy=ctbb_SlabWid/2, dz=ctbb_Slab2Len/2, X=xpos Z=-zpos zpos = zpos - (ctbb_Slab2len + ctbb_ConvLen)/2 Position BCCV X=xpos Z=-zpos alphax=180, Dx1=ctbb_SlabThck/2 Dx2=ctbb_SlabThck/2, Dy1=ctbb_ConvWidM/2 Dy2=ctbb_SlabWid/2 dz=ctbb_ConvLen/2 zpos = zpos - (ctbb_ConvLen + ctbb_PmtLen)/2 Position BCPM X=xpos Z=-zpos, Rmin=ctbb_PmtMinR Rmax=ctbb_PmtMaxR Dz=ctbb_PmtLen/2 zpos = zpos - (ctbb_PmtLen + ctbb_BaseLen)/2 Position BCSK X=xpos Z=-zpos, Rmin=ctbb_BaseMinR Rmax=ctbb_BaseMaxR Dz=ctbb_BaseLen/2 Position BZEL X=xpos Z=-zpos dx=ctbb_ElecThck/2, dy=ctbb_BaseMinR-0.1 dz=ctbb_BaseLen/2 EndBlock * *------------------------------------------------------------------------------- Block BTTC is the Main Tray Cavity filled with the details for TOFp Attribute BTTC seen=0 colo=3 Component C A=12 Z=6 W=1 Component H2 A=1 Z=1 W=2 Mixture LastAFoam Dens=0.048 Shape BOX dx=tray_height/2-tray_WallThk, dy=tray_Width/2-tray_WallThk, dz=tray_Length/2-tray_WallThk *---- the 4wide mother box... sublen = ((toff_Slat02z+15.5)-(toff_Slat10z-15.5)) subcen = (toff_Slat02z+15.5)-sublen/2. iwid=4 Create and Position BMAA X=0 Z=subcen konly='MANY' *---- the 5wide mother box... iwid=5 Create and Position BMAA X=0.0 Z=toff_Slat01z konly='MANY' *---- interior cooling rails and tubing.... Create and Position BCOO X=0 Y=0 dx=0 dy=0 dz=0 *---- front end electronics boards Create BFEE dx=toff_ElecThck/2, dy=toff_ElecWid/2, dz=toff_ElecLen/2 Position BFEE X=toff_ElecHgt Z=toff_Elec01z-toff_ElecLen/2 Position BFEE X=toff_ElecHgt Z=toff_Elec02z-toff_ElecLen/2 Position BFEE X=toff_ElecHgt Z=toff_Elec03z-toff_ElecLen/2 Position BFEE X=toff_ElecHgt Z=toff_Elec04z-toff_ElecLen/2 Position BFEE X=toff_ElecHgt Z=toff_Elec05z-toff_ElecLen/2 Position BFEE X=toff_ElecHgt Z=toff_Elec06z-toff_ElecLen/2 Position BFEE X=toff_ElecHgt Z=toff_Elec07z-toff_ElecLen/2 Position BFEE X=toff_ElecHgt Z=toff_Elec08z-toff_ElecLen/2 Position BFEE X=toff_ElecHgt Z=toff_Elec09z-toff_ElecLen/2 Position BFEE X=toff_ElecHgt Z=toff_Elec10z-toff_ElecLen/2 *---- plastic angles... Create BPLA Position BPLA X=toff_ElecHgt Y=0 Z=toff_Elec01z+3.0 Position BPLA X=toff_ElecHgt Y=0 Z=toff_Elec02z+3.0 Position BPLA X=toff_ElecHgt Y=0 Z=toff_Elec03z+3.0 Position BPLA X=toff_ElecHgt Y=0 Z=toff_Elec04z+3.0 Position BPLA X=toff_ElecHgt Y=0 Z=toff_Elec05z+3.0 Position BPLA X=toff_ElecHgt Y=0 Z=toff_Elec06z+3.0 Position BPLA X=toff_ElecHgt Y=0 Z=toff_Elec07z+3.0 Position BPLA X=toff_ElecHgt Y=0 Z=toff_Elec08z+3.0 Position BPLA X=toff_ElecHgt Y=0 Z=toff_Elec09z+3.0 Position BPLA X=toff_ElecHgt Y=0 Z=toff_Elec10z+3.0 EndBlock *------------------------------------------------------------------------------ * Block BUPC is the up pcb cover of tofr Attribute BUPC seen=0 colo=3 Material G10 Shape BOX dx=tray_WallThk/2, dy=tray_Width/2-tray_WallThk, dz=tray_Length/2-tray_WallThk EndBlock * *------------------------------------------------------------------------------ * Block BRTC is the Main Tray Cavity filled with the details for TOFr (run3 or run4) Attribute BRTC seen=0 colo=5 Material HoneyComb Shape BOX dx=tray_Height/2-tray_WallThk, dy=tray_Width/2-tray_WallThk, dz=tray_Length/2-tray_WallThk Create and Position BGMT konly='MANY' *---- create and position TOFr modules * * Change the new geometry to honeycomb support of long slim box by * add mixture gas box in the tray box iterior * Create and Position BGMT Create BRMD if (tof==2) then z0 = tray_Length/2 - 0.05 * x0 = -(btog_Rmin+tray_SupFullH+tray_StripT+tray_Height/2) - 1.5 x0 = -3.66 do i=1,33 Position BRMD X=x0+modr_mrpcX(i) , Z=z0-modr_mrpcZ(i) , alphay=modr_mrpcA(i) enddo elseif (tof==3) then z0 = tray_Length/2 - 0.05 - mod4_TrayEdgeZ x0 = -3.66 do i=1,32 if (i.le.20.or.(i.ge.25.and.i.le.28)) then Position BRMD X=x0+mod4_mrpcX(i) , Z=z0-mod4_mrpcZ(i) , alphay=mod4_mrpcA(i) endif enddo else endif * EndBlock * *------------------------------------------------------------------------------ * Block BGMT is the mixture gas box in tray that change the hc box into slim Attribute BGMT seen=0 colo=2 Material RPCgas Shape BOX dx=tray_Height/2-tray_WallThk, dy=tray_Width/2-tray_WallThk-modr_HBWid, dz=tray_Length/2-tray_WallThk EndBlock * *------------------------------------------------------------------------------ * Block BMAA is a b1ox for a 4wide AND 5wide phi column of TOF Scintillators Attribute BMAA seen=0 colo=2 if (iwid==4) then * ---- the 4wide mother box... Shape BOX dx=tray_height/2-tray_WallThk, dy=0.8*toff_BoxWidth/2, dz=sublen/2. else *---- the 5wide mother box... Shape BOX dx=tray_height/2-tray_WallThk, dy=toff_BoxWidth/2, dz=15.5 endif Create BMTD " dont need to positition it, because this is division" EndBlock * * - - * Block BMTD is a 5wide phi column of TOF Scintillators Attribute BMTD seen=1 colo=1 Shape division Iaxis=2 Ndiv=iwid Create BASS if (iwid==5) then Position BASS X=-1.7 alphay=5.0 konly='MANY' else Position BASS X=-0.4 Z=toff_Slat02z-subcen alphay=10.0 konly='MANY' Position BASS X=-0.2 Z=toff_Slat03z-subcen alphay=11.0 konly='MANY' Position BASS X=-0.2 Z=toff_Slat04z-subcen alphay=11.0 konly='MANY' Position BASS X=-0.2 Z=toff_Slat05z-subcen alphay=11.0 konly='MANY' Position BASS X=-0.2 Z=toff_Slat06z-subcen alphay=11.0 konly='MANY' Position BASS X=-0.2 Z=toff_Slat07z-subcen alphay=11.0 konly='MANY' Position BASS X=-0.2 Z=toff_Slat08z-subcen alphay=11.0 konly='MANY' Position BASS X=-0.2 Z=toff_Slat09z-subcen alphay=11.0 konly='MANY' Position BASS X=-0.2 Z=toff_Slat10z-subcen alphay=11.0 konly='MANY' endif EndBlock * - - * * ******************************************************************************* ******************************************************************************* Block BASS is a single TOF Slat Assembly (slat+PMT+base) Attribute BASS seen=0 colo=6 totlen = toff_SlatLen+toff_PmtLen+toff_BaseLen Shape BOX dx=toff_PmtMaxR, dy=(tray_Width/2-tray_WallThk)/5., dz=totlen/2. zpos = -(totlen-toff_SlatLen)/2 Create and Position BCSB Z=zpos zpos = zpos + (toff_SlatLen+toff_PmtLen)/2 Create and Position BCPM X=0 Z=zpos, Rmin=toff_PmtMinR Rmax=toff_PmtMaxR, Dz=toff_PmtLen/2 zpos = zpos + toff_PmtLen/2. Create and Position BTSK X=0 Z=zpos+(toff_SockLen/2), Rmin=toff_PmtMinR Rmax=toff_PmtMaxR, Dz=toff_SockLen/2 Create and Position BCEL X=0 Z=zpos+(toff_ElecThck/2), Rmin=0 Rmax=toff_PmtMinR, Dz=toff_ElecThck/2 zpos = zpos + toff_BaseLen/2 Create BCEB dx=toff_ElecThck/2, dy=toff_CellWid/2, dz=toff_BaseLen/2 Position BCEB X=toff_CellHgt/2 Z=zpos Position BCEB X=-toff_CellHgt/2 Z=zpos zpos = zpos + toff_BaseLen/2 - 0.6 Create and Position BCON X=0 Y=0 Z=zpos, dx=(toff_CellHgt-toff_ElecThck)/2, dy=1.25, dz=0.6 EndBlock * *------------------------------------------------------------------------------ Block BXSA is the active trigger scintillator SLAB for ctb Attribute BXSA seen=0 colo=3 Material polystyren Medium sensitive IsVol=1 Shape BOX dx=0 dy=0 dz=0 * * hit options: H - put in GEANT hit field (instead of PseudoVolumes) * S - Single step * HITS BXSA X:.01:S Y:.01: Z:.01:, Ptot:18:(0,100) cx:10: cy:10: cz:10:, Sleng:.1:(0,500) ToF:16:(0,1.e-6) Step:.01:, Eloss:16:(0,0.01) EndBlock * *------------------------------------------------------------------------------ Block BCSB is the active trigger scintillator SLAB for tof Attribute BCSB seen=1 colo=7 Material polystyren Medium sensitive IsVol=1 Shape BOX dx=toff_SlatThck/2 dy=toff_SlatWid/2 dz=toff_SlatLen/2 * * hit options: H - put in GEANT hit field (instead of PseudoVolumes) * S - Single step * HITS BCSB X:.01:S Y:.01: Z:.01:, Ptot:18:(0,100) cx:10: cy:10: cz:10:, Sleng:.1:(0,500) ToF:16:(0,1.e-6) Step:.01:, Eloss:16:(0,0.01) EndBlock * *------------------------------------------------------------------------------ Block BCCV is a Ctb optical ConVerter Attribute BCCV seen=0 colo=3 Material polystyren Shape TRD2 Dx1=0 Dx2=0 Dy1=0 Dy2=0 dz=0 EndBlock Block BCSK is a CTB Linear Base tube Attribute BCSK seen=0 colo=2 Material polystyren Shape TUBE Rmin=0 Rmax=0 Dz=0 EndBlock Block BZEL is a Ctb PM electronics Attribute BZEL seen=0 colo=6 Material silicon Shape BOX dx=0 dy=0 dz=0 EndBlock Block BCPM is a PhotoMultiplier Tube (same for CTB and TOF) Attribute BCPM seen=0 colo=1 Material polystyren Shape TUBE Rmin=0 Rmax=0 Dz=0 EndBlock * Block BTSK is the outer shell of a TOF CW Base Attribute BTSK seen=0 colo=7 Material polystyren Shape TUBE Rmin=0 Rmax=0 Dz=0 EndBlock Block BCEL is a circular G10 board in the CW Base for TOF Attribute BCEL seen=0 colo=3 Material G10 Shape TUBE Rmin=0 Rmax=0 Dz=0 EndBlock Block BCEB is a square G10 board in the CW Base for TOF Attribute BCEL seen=0 colo=3 Material G10 Shape BOX dx=0 dy=0 dz=0 EndBlock * Block BPLA is the plastic angle pieces that hold the upper foam supports... Attribute BPLA seen=0 colo=4 Material polystyren Shape BOX dx=0 dy=0 dz=0 Create and Position BCON x=0 y=0 z=(-0.5*2.54)/2, dx=0.08*2.54/2, dy=tray_Width/2-tray_WallThk-0.5, dz=0.5*2.54/2 Position BCON x=(-0.08*2.54 - 0.25*2.54)/2, y=0, z=(-0.08*2.54)/2, dx=0.25*2.54/2, dy=tray_Width/2-tray_WallThk-2.0, dz=0.08*2.54/2 EndBlock Block BCON is a generic plastic block for various connectors, foam-support-angles, etc...... Attribute BCON seen=0 colo=6 Material polystyren Shape BOX dx=0 dy=0 dz=0 EndBlock * * -- removing blem -- Block BFEE is a G10 FrontEndElectronics board for TOF Attribute BFEE seen=0 colo=3 Material G10 Shape BOX dx=0 dy=0 dz=0 * Create BLEM * Position BLEM x=toff_ElecThck+(0.7/2) y=-7.0 z=2 * Position BLEM x=toff_ElecThck+(0.7/2) y=-3.5 z=2 * Position BLEM x=toff_ElecThck+(0.7/2) y=0. z=2 * Position BLEM x=toff_ElecThck+(0.7/2) y=3.5 z=2 * Position BLEM x=toff_ElecThck+(0.7/2) y=7 z=2 * Position BLEM x=toff_ElecThck+(0.7/2) y=-7.0 z=-2 alphax=180 * Position BLEM x=toff_ElecThck+(0.7/2) y=-3.5 z=-2 alphax=180 * Position BLEM x=toff_ElecThck+(0.7/2) y=0. z=-2 alphax=180 * Position BLEM x=toff_ElecThck+(0.7/2) y=3.5 z=-2 alphax=180 * Position BLEM x=toff_ElecThck+(0.7/2) y=7 z=-2 alphax=180 * Position BLEM x=toff_ElecThck+(0.7/2) y=-6.0 z=-2 alphax=180 * Position BLEM x=toff_ElecThck+(0.7/2) y=-2.5 z=-2 alphax=180 * Position BLEM x=toff_ElecThck+(0.7/2) y=1. z=-2 alphax=180 * Position BLEM x=toff_ElecThck+(0.7/2) y=4.5 z=-2 alphax=180 * Position BLEM x=toff_ElecThck+(0.7/2) y=8. z=-2 alphax=180 EndBlock *Block BLEM is a Lemo connector on the FEE boards * Attribute BLEM seen=0 colo=3 * Shape BOX dx=0 dy=0 dz=0 ** Create BRAI dx=0.9/2 dy=0.7/2 dz=0.7/2 ** Create BPIP Rmin=0.62/2 Rmax=0.68/2 dz=1.0/2 ** Position BRAI x=0 y=0 z=0 ** Position BPIP x=(0.9-0.72)/2 y=0 z=(0.7+1.0)/2 * Create and Position BPIP x=(0.9-0.72)/2 y=0 z=(0.8+1.0)/2, * Rmin=0.62/2 Rmax=0.68/2 dz=2.0/2 *EndBlock * ******************************************************************************* ******************************************************************************* Block BCOO are the cooling rails/loops Attribute BCOO seen=0 colo=2 Shape BOX dx=0 dy=0 dz=0 Create BRAI dx=toff_RailThck/2, dy=toff_RailWid/2, dz=tray_Length/2-tray_WallThk Position BRAI X=toff_ElecHgt-toff_RailThck, Y= (tray_width/2-toff_RailWid/2-tray_WallThk), konly='MANY' Position BRAI X=toff_ElecHgt-toff_RailWid/2-toff_RailThck/2, Y= (tray_width/2-toff_RailThck/2-tray_WallThk), alphaz=90, konly='MANY' Position BRAI X=toff_ElecHgt-toff_RailThck, Y=-(tray_width/2-toff_RailWid/2-tray_WallThk), konly='MANY' Position BRAI X=toff_ElecHgt-toff_RailWid/2-toff_RailThck/2, Y=-(tray_width/2-toff_RailThck/2-tray_WallThk), alphaz=90, konly='MANY' Create BPIP Rmin=toff_CoolInnR Rmax=toff_CoolOutR, dz=tray_Length/2-tray_WallThk Position BPIP X=toff_ElecHgt-3.*toff_RailThck/2.-toff_CoolOutR, Y= (tray_width/2-toff_RailThck-tray_WallThk-toff_CoolOutR), konly='MANY' Position BPIP X=toff_ElecHgt-3.*toff_RailThck/2.-toff_CoolOutR, Y=-(tray_width/2-toff_RailThck-tray_WallThk-toff_CoolOutR), konly='MANY' Create BPIQ Rmin=toff_CoolInnR Rmax=toff_CoolOutR, dz=tray_width/2-tray_WallThk-2.*toff_CoolOutR-toff_RailThck Position BPIQ X=toff_ElecHgt-3.*toff_RailThck/2.-toff_CoolOutR Y=0.0, Z=tray_Length/2-tray_WallThk-toff_RailThck-toff_CoolOutR, alphaX=90, konly='MANY' Create BWAT Rmin=0 Rmax=toff_CoolInnR dz=tray_Length/2-tray_WallThk Position BWAT X=toff_ElecHgt-3.*toff_RailThck/2.-toff_CoolOutR, Y=(tray_width/2-toff_RailThck-tray_WallThk-toff_CoolOutR) Position BWAT X=toff_ElecHgt-3.*toff_RailThck/2.-toff_CoolOutR, Y=-(tray_width/2-toff_RailThck-tray_WallThk-toff_CoolOutR) Create BWAT Rmin=0 Rmax=toff_CoolInnR, dz=tray_width/2-tray_WallThk-2.*toff_CoolOutR-toff_RailThck Position BWAT X=toff_ElecHgt-3.*toff_RailThck/2.-toff_CoolOutR Y=0.0, Z=tray_Length/2-tray_WallThk-toff_RailThck-toff_CoolOutR, alphaX=90 EndBlock Block BRAI is the Rail for the cooling loop Attribute BRAI seen=0 colo=7 Material Aluminium Shape BOX dx=0.0 dy=0.0 dz=0.0 EndBlock Block BPIP is the Long Pipe for the cooling loop Attribute BPIP seen=0 colo=7 Material Aluminium Shape TUBE Rmin=0 Rmax=0 Dz=0 EndBlock Block BPIQ is the Short Pipe for the cooling loop Attribute BPIQ seen=0 colo=7 Material Aluminium Shape TUBE Rmin=0 Rmax=0 Dz=0 EndBlock * * ******************************************************************************* ******************************************************************************* Block BUND is Undercarriage support tray - same both for CTB and TOF Attribute BUND seen=0 colo=1 serial=0 Shape BOX dx=tray_SupFullH/2 dy=tray_Width/2 dz=tray_SupLen/2 Material Aluminium xpos = (tray_SupFullH - tray_FootThk)/2 ypos = (tray_width - tray_Foot1Len)/2 - tray_FootInse Create and Position BTFT X = xpos, Y = -ypos dx = tray_FootThk/2 dy = tray_Foot1Len/2 Position BTFT X = xpos, Y = +ypos dx = tray_FootThk/2 dy = tray_Foot1Len/2 xpos = (tray_SupFullH - tray_Foot2Thk)/2 ypos = ypos - (tray_Foot1Len + tray_FootThk)/2 Position BTFT X = xpos, Y = -ypos dx = tray_Foot2Thk/2 dy = tray_FootThk/2 Position BTFT X = xpos, Y = +ypos dx = tray_Foot2Thk/2 dy = tray_FootThk/2 xpos = (tray_SupFullH + tray_FootThk)/2 - tray_Foot2Thk ypos = ypos - (tray_FootThk + tray_Foot3Len)/2 Position BTFT X = xpos, Y = -ypos dx = tray_FootThk/2 dy = tray_Foot3Len/2 Position BTFT X = xpos, Y = +ypos dx = tray_FootThk/2 dy = tray_Foot3Len/2 support_aile_width = ( tray_SupFullH-tray_SupArmT )/tan(60*DegRad) support_arm_width = ( tray_SupFullW-tray_SupBaseW)/2-support_aile_width support_aile_Ypos = ( tray_SupBaseW+Support_Aile_width)/2 support_arm_Xpos = ( tray_SupFullH-tray_SupArmT )/2 support_arm_Ypos = ( tray_SupFullW-Support_Arm_width)/2 Material Aluminium Create and Position BASE X=(-tray_SupFullH+tray_SupBaseT)/2 Create and Position BARM X=support_arm_Xpos Y=-support_arm_Ypos Position BARM X=support_arm_Xpos Y=+support_arm_Ypos Create and Position BANG Y=-support_aile_Ypos Position BANG Y=+support_aile_Ypos thetaX=270 Create and Position BCOV X=-tray_SupFullH/2+tray_CoolOutR EndBlock Block BTFT is the Foot structure ( Material Aluminium ) Attribute BTFT seen=0 colo=2 Shape BOX dx = 0.0 dy = 0.0 dz = 0.0 EndBlock Block BARM is a TPC cooling structure arm ( Material Aluminium ) Attribute BARM seen=0 colo=2 Shape BOX Dx=tray_SupArmT/2 DY=support_arm_width/2 EndBlock Block BANG is an angled part of TPC cooling structure ( Aile ) Attribute BANG seen=0 colo=2 Shape PARA dx=tray_SupArmT/2 Dy=support_aile_width/2, Alph=-60 thet=0 phi=0 EndBlock Block BASE is a bottom of TPC coolant structure Attribute BASE seen=0 colo=2 Shape BOX Dx=tray_SupBaseT/2 Dy=tray_SupBaseW/2 EndBlock Block BCOV is a whole TPC cooling channel Attribute BCOV seen=0 colo=2 Shape TUBE Rmin=0 Rmax=tray_CoolOutR Create and Position BWAT Rmin=0 Rmax=tray_CoolInnR EndBlock Block BWAT is TPC cooling water Attribute BWAT seen=0 colo=3 Component H2 A=1 Z=1 W=2 Component O A=16 Z=8 W=1 Mixture Water Dens=1.0 Shape TUBE ** Rmin=0 Rmax=0 EndBlock *------------------------------------------------------------------------------ * the frame of MPRC module: * * HoneyComb BRHC * Double-side tape is not included * PCB BRCB * Anode(Electrode) copper-pad is not included so far * Mylar BRMY * Graphite BRGR * Outer-Glass BROG * Separator BRSG * /--Inner-Glass BRIG * n { * \--Separator * Outer-Glass * Graphite * Mylar * Cathode(Electrode) copper-pad is not included so far * PCB * Double-side tape is not included * HoneyComb * + Wedges BRWG * * Note: * 1. PCB, short for "Printed Circuit Board * 2. Separator(BRSP) and Wedge(BRWG) are not precisely positioned * *------------------------------------------------------------------------------ Block BRMD is a six channel module for TOFr Attribute BRMD seen=0 colo=6 Material RPCgas Shape BOX dx=modr_Height/2, dy=modr_Width/2, dz=modr_Length/2 Create BRHC Create BRCB Create BRMY Create BRGR Create BROG DTHgt = (modr_IGHgt+modr_SPRMax*2)*(modr_NGap-1)+modr_SPRMax*2 Create BRDT dx=DTHgt/2., dy=modr_IGWid/2., dz=modr_IGLen/2., konly='MANY' Create BRWG XPOS = modr_Height/2. Y = 0. Z = modr_Center * *- Single-direction positioning from bottom only * Position BRHC X=XPOS-modr_HCHgt/2 Z=modr_Center XPOS = XPOS - modr_HCHgt Position BRCB X=XPOS-modr_PCBHgt/2 Z=0. XPOS = XPOS - modr_PCBHgt Position BRMY X=XPOS-modr_MYHgt/2 Z=modr_Center XPOS = XPOS - modr_MYHgt Position BRGR X=XPOS-modr_GRHgt/2 XPOS = XPOS - modr_GRHgt Position BROG X=XPOS-modr_OGHgt/2 XPOS = XPOS - modr_OGHgt Position BRDT X=XPOS-DTHgt/2 XPOS = XPOS - DTHgt Position BROG X=XPOS-modr_OGHgt/2 XPOS = XPOS - modr_OGHgt Position BRGR X=XPOS-modr_GRHgt/2 XPOS = XPOS - modr_GRHgt Position BRMY X=XPOS-modr_MYHgt/2 XPOS = XPOS - modr_MYHgt Position BRCB X=XPOS-modr_PCBHgt/2, Z=0. XPOS = XPOS - modr_PCBHgt Position BRHC X=XPOS-modr_HCHgt/2, Z=modr_Center XPOS = XPOS - modr_HCHgt EndBlock *------------------------------------------------------------------------------ Block BRHC is the HoneyComb in the TOFr module Attribute BRHC seen=1 colo=1 Material HoneyComb Shape BOX dx = modr_HCHgt/2, dy = modr_HCWid/2, dz = modr_HCLen/2 EndBlock *------------------------------------------------------------------------------ Block BRCB is the PCB in the TOFr module Attribute BRCB seen=1 colo=3 Material G10 Shape BOX dx = modr_PCBHgt/2, dy = modr_PCBWid/2, dz = modr_PCBLen/2 EndBlock *------------------------------------------------------------------------------ Block BRMY is the MYlar in the TOFr module Attribute BRMY seen=0 colo=1 Material MYLAR Shape BOX dx = modr_MYHgt/2, dy = modr_MYWid/2, dz = modr_MYLen/2 EndBlock *------------------------------------------------------------------------------ Block BRGR is the GRaphite in the TOFr module Attribute BRGR seen=0 colo=1 Material Carbon Shape BOX dx = modr_GRHgt/2, dy = modr_GRWid/2, dz = modr_GrLen/2 EndBlock *------------------------------------------------------------------------------ Block BROG is the Outer Glass in the TOFr module Attribute BROG seen=1 colo=7 Component Si A=28 Z=14 W=1. Component O A=16 Z=8 W=2. Mixture Glass Dens=2.2 Shape BOX dx = modr_OGHgt/2, dy = modr_OGWid/2, dz = modr_OGLen/2 EndBlock *------------------------------------------------------------------------------ * This is the sensitive part, consisting of gas, excluding volumes(glass and * separators) inside. The responses (amplitude, efficiency, and time * resolution) depends on the position. * Block BRDT is the middle part (including innner glass and gas)in the MRPC Attribute BRDT Shape BOX Create BRIG konly='MANY' Create BRSG konly='MANY' XPOS = DTHgt/2. Y = 0. Z = 0. Do igap=1,modr_NGap-1 Position BRSG X= XPOS - modr_SPRMax XPOS = XPOS - modr_SPRMax*2. Position BRIG X= XPOS - modr_IGHgt/2 XPOS = XPOS - modr_IGHgt Enddo Position BRSG X= XPOS - modr_SPRMax XPOS = XPOS - modr_SPRMax*2. *-Divsion of BRDT into Pad-Rooms(BRPR) * * CREATE BRPR * * hit is defined in BRDT instead of BTPR, because a hit may yield signal * in two adjacent pads * * hit options: H - put in GEANT hit field (instead of PseudoVolumes) * S - Single step * * HITS BRDT X:.01:HS Y:.01: Z:.01:, * Ptot:18:(0,100), * Sleng:.1:(0,500) ToF:16:(0,1.e-7) Step:.01:, * Eloss:16:(0,1.e-6) EndBlock *------------------------------------------------------------------------------ * It includes both anode and chathode, plus room between them, so it is the * basic unit area to collect signal * *Block BRPR is the pad in the TOFr module * Attribute BRPR ** Shape Division IAxis=3 NDiv=modr_NPad * Shape Box dy = modr_PadWid, * dz = modr_PadLen, konly='MANY' *EndBlock *------------------------------------------------------------------------------ Block BRIG is the Inner Glass in the TOFr module Attribute BRIG seen=1 colo=7 Material Glass Shape BOX dx = modr_IGHgt/2, dy = modr_IGWid/2, dz = modr_IGLen/2 EndBlock *------------------------------------------------------------------------------ *Block BRSP is the SeParator in the TOFr module * Attribute BRSP * Component O A=16 Z=8 W=1 * Component N A=14 Z=7 W=1 * Component C A=12 Z=6 W=6 * Component H A=1 Z=1 W=11 * Mixture Nylon Dens = 1.14 * Shape TUBE rmin = modr_SPRMin, * rmax = modr_SPRMax, * dz = modr_SPLen/2 *EndBlock *------------------------------------------------------------------------------ Block BRSG is the sensitive gas layer in the TOFr module Attribute BRSG seen=0 colo=5 Material RPCgas Medium sensitive IsVol=1 Shape BOX dx = modr_IGHgt/2, dy = modr_IGWid/2, dz = modr_IGLen/2 HITS BRSG X:.01:HS Y:.01: Z:.01:, Ptot:18:(0,100), Sleng:.1:(0,500) ToF:16:(0,1.e-7) Step:.01:, Eloss:16:(0,1.e-6) EndBlock *------------------------------------------------------------------------------ Block BRWG is the WedGe(support) in the TOFr module Attribute BRWG seen=0 Component O A=16 Z=8 W=2 Component C A=12 Z=6 W=5 Component H A=1 Z=1 W=8 Mixture Lucite Dens = 1.18 Shape TUBE rmin = modr_WGRMin, rmax = modr_WGRMax, dz = modr_WGLen/2 EndBlock * ---------------------------------------------------------------------------- end