* *================================================================== * Input - output files *================================================================== * * OPEN BOSINPUT FILE=..... * OPEN BOSINPUT FILE="G11502" STAGE READ RECL=27720 * (for generator jobs leave BOSINPUT undefined ) * OPEN BOSOUTPUT FILE=INLINE.TRACKS shift WRITE RECL=27720 NEW * END * * *================================================================== * Steering cards and banks *================================================================== * NEVENT 50 * PRINT 1 'FRQF' 'FRQE' 'FRPF' 'FRPE' *==================================================================== * Help for steering cards *==================================================================== * * FIELD value in kG (default=11.6) * NEVENT #of evnts to process (default=infinite) * TIMEND # of sec. needed to end job (default=2) * TIMING add this to get timeinfo per event (default: no timeinfo) * MEMORY add it to get event memory space info (default: no info) * PRINT [ranges] list of banks to be printed (default: empty list) * (see comment below) * DEBUG module-name debug-level debug-count (default: no debug) * module-name debug-level debug-count * BOSCHECK check named bank BOS area (default: no check) * SAMERA run moduls with same random numbers (default: new numbers) * HISTOFF module-name (def: no suppression) * effect: suppress printout of module * * For the "PRINT" command you can optionally specify ranges of event * numbers, that you want to select,e.g. * * PRINT 1 -3 6 7 -9 'ARCE' 'BRCE' * * prints banks 'ARCE and 'BRCE' for events 1,2,3, 6, 7,8,9. If no range * is specified, then the given banks are printed for each event. * You can have several "PRINT" and "DEBUG" cards in one job. * *====================================================================== * H1SIM steering banks *====================================================================== * OTTO ! Our Tricky Tracking Options * * Define the tracking options here. You don't need to specify the * steering flags via the OSGO/OSGD/GFCP banks unless for special * test purposes to be studied by experts. * 0 ! =0 means user settings of parameters (OSGO,OSGD and GFCP) ! =1 " GEANT low cuts (200keV/1MeV) ! =2 " GEANT medium cuts (2MeV/10MeV) ! =3 " H1FAST only em showers parametrized ! =4 " H1FAST option 3 + "continuum" option ala ALGORIX ! (continuum option for LAr only) ! =5 " H1FAST full parametrization ala GFLASH * 1 ! =1 means GHEISHA ! =2 means FLUKA * EVNT 1 / * * Xv Yv Zv (cm) 0.0 0.0 0.0 * *----------------------------------------------------------------------- * 10 10 GeV Pions + : * 1 1 10. 6. 290. 211 1 1 1 10. 8. 90. 211 1 1 1 10. 10. 230. 211 1 1 1 10. 12. 30. 211 1 1 1 10. 14. 170. 211 1 1 1 10. 16. 310. 211 1 1 1 10. 18. 110. 211 1 1 1 10. 20. 250. 211 1 1 1 10. 22. 50. 211 1 1 1 10. 24. 190. 211 1 *----------------------------------------------------------------------- * EVNT 2 / * * Xv Yv Zv (cm) 0.0 0.0 0.0 * *----------------------------------------------------------------------- * 10 10 GeV Electrons: * 1 1 10. 6. 290. 11 1 1 1 10. 8. 90. 11 1 1 1 10. 10. 230. 11 1 1 1 10. 12. 30. 11 1 1 1 10. 14. 170. 11 1 1 1 10. 16. 310. 11 1 1 1 10. 18. 110. 11 1 1 1 10. 20. 250. 11 1 1 1 10. 22. 50. 11 1 1 1 10. 24. 190. 11 1 *----------------------------------------------------------------------- EVNT 3 / * *----------------------------------------------------------------------- * define vertex (or vertices) * Xv Yv Zv (cm) 0.0 0.0 0.0 *----------------------------------------------------------------------- * define particles: * IMETH=2,3,4 define NTRA particles with momentum/angles in specified * range (equidistant values from minimum to maximum). * IMETH=5 allows particles to be distributed randomly within specified * ranges in theta and phi simultaneously. * * Some PDG codes: Electron: 11 * Positron: -11 * Pion+ 211 * Muon- 13 * *----------------------------------------------------------------------- * IMETH (GeV) (degrees) (degrees) * 1 NTRA P Theta Phi IPDG IVERT * 2 NTRA Pmin..Pmax Theta Phi IPDG IVERT * 3 NTRA P Th.min..Th.max Phi IPDG IVERT * 4 NTRA P Theta Ph.min..Ph.max IPDG IVERT * 5 NTRA P Th.min..Th.max Ph.min..Ph.max IPDG IVERT *----------------------------------------------------------------------- * 10 10 GeV Muons - : * 1 1 10. 6. 290. 13 1 1 1 10. 8. 90. 13 1 1 1 10. 10. 230. 13 1 1 1 10. 12. 30. 13 1 1 1 10. 14. 170. 13 1 1 1 10. 16. 310. 13 1 1 1 10. 18. 110. 13 1 1 1 10. 20. 250. 13 1 1 1 10. 22. 50. 13 1 1 1 10. 24. 190. 13 1 *----------------------------------------------------------------------- OSGD ! Overall H1 Steering for Geant subDetector control * #==========#============#========#=============== * * Subdetector names NAMSUB WORDS 1 - 7 * * Granularity of geometry description ISGRAN WORDS 8 - 14 * 0 : description absent * 1 : finest granularity * 2 : medium granularity * 3 : coarse granularity * * Flag for hit '_R_T' bank production ISRBNK WORDS 15 - 21 * 1 : Make track response banks * * Flag for 'dS--' bank production ISDSBK WORDS 22 - 28 * 1 : Make 'starting track' banks * * Subdetector boundary flag ISTRKB WORDS 29 - 35 * 0 : Continue tracking through * 1 : Stop tracking on entering * 2 : Start with starting banks * * Method of tracking ISTRKM WORDS 36 - 42 * 1 : GEANT (full shower production) * 2 : ALGORIX (energy spot production) * 3 : FLASH (energy spot production) * 4 : e TAGGER (fast) * * Kinetic energy cut SKECUT WORDS 43 - 49 * * Secondary particles with a kinetic energy above SKECUT (GeV) * are considered as "prominent" secondaries. Prominent secondaries * get their own track number and are added to the STR/SVX banks. * Decay products in the trackers (CENT/FWDT) and in vacuum are always * considered as "prominent" secondaries, independent of their energy. * * WARNING * SKECUT = 1.0 for all detectors can make extra 2000 tracks in * the STR bank for LUND CC event for example. * * For the time being the CENT cut is used for secondaries in BEAM * 'CENT' 'FWDT' 'CALO' 'PLUG' 'BEMC' 'IRON' 'FWFE' 'LUMI' ! Subdet Name *===> *===> Warning: lines followed by !* are overwritten by OTTO steering ! *===> 3 3 0 0 0 0 0 0 !* Granularity 1 1 1 1 1 1 1 1 ! Hit banks? 0 0 0 0 0 0 0 0 ! Start. banks? 0 0 0 0 0 0 0 0 ! Boundary flag 1 1 3 3 3 1 1 1 !* Tracking mode 999.0 999.0 999.0 999.0 999.0 999.0 999.0 999.0 ! Sec. mom. cut * *----------------------------------------------------------------------* * FGDP ! Forward Tracking Geometry Dead Planar Material * #================#========#====#============== * * Author: G.D.Patel, Liverpool. Created 09/09/87 * 2 ! = Length of subheader Word: 1 43 ! = # of modules +1 980721 ! = yymmdd of last update +2 * * 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 *L Shape| Name | Mother| Medium| R0 | PHI0 | Z0 | NCOPY |IROTM * * | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 * 1 BOX | Zmin | Zmax | Delx | Dely | * 5 TUBE | Zmin | Zmax | Rmin | Rmax | * 13 'TUBE' 'FGEF' 'FWDT' 204 0.00 0.00 0.00 1 0 130.00 131.00 11.00 85.00 *mother 13 'TUBE' 'FPLN' 'FWDT' 1 0.00 0.00 0.00 1 0 131.00 155.60 10.00 85.00 13 'TUBE' 'FPLN' 'FWDT' 1 0.00 0.00 0.00 2 0 173.20 197.80 10.00 85.00 13 'TUBE' 'FPLN' 'FWDT' 1 0.00 0.00 0.00 3 0 215.40 240.00 10.00 85.00 *inner gas tank 13 'TUBE' 'FGA0' 'FPLN' 255 0.00 0.00 0.00 1 0 131.00 131.60 11.05 12.30 13 'TUBE' 'FGA1' 'FPLN' 255 0.00 0.00 0.00 1 0 131.60 132.60 11.93 12.13 13 'TUBE' 'FGC1' 'FPLN' 11 0.00 0.00 0.00 1 0 131.60 148.30 12.13 12.30 *orientation 1 13 'TUBE' 'FPM1' 'FPLN' 206 0.00 0.00 0.00 1 0 135.30 135.75 13.50 78.50 13 'TUBE' 'FPS0' 'FPLN' 253 0.00 0.00 0.00 1 0 135.75 138.95 13.50 78.50 *orientation 2 13 'TUBE' 'FPM2' 'FPLN' 206 0.00 0.00 0.00 1 0 138.95 139.95 13.50 78.50 13 'TUBE' 'FPS0' 'FPLN' 253 0.00 0.00 0.00 2 4 139.95 143.15 13.50 78.50 *orientation 3 13 'TUBE' 'FPM3' 'FPLN' 206 0.00 0.00 0.00 1 0 143.15 144.15 13.50 78.50 13 'TUBE' 'FPS0' 'FPLN' 253 0.00 0.00 0.00 3 5 144.15 147.35 13.50 78.50 *orientation 4 13 'TUBE' 'FPM4' 'FPLN' 206 0.00 0.00 0.00 1 0 147.35 147.80 13.50 78.50 *****new planar by masj 13 'TUBE' 'FQM0' 'FPLN' 206 0.00 0.00 0.00 1 0 147.80 148.21 13.50 74.50 13 'TUBE' 'FQS0' 'FPLN' 253 0.00 0.00 0.00 1 6 148.21 153.61 15.60 74.50 13 'TUBE' 'FQM1' 'FPLN' 206 0.00 0.00 0.00 1 0 153.61 154.02 13.50 74.50 *inner gas tank from old fgdr moved here 13 'TUBE' 'FGA2' 'FPLN' 255 0.00 0.00 0.00 1 0 148.30 149.50 12.30 12.50 13 'TUBE' 'FGA3' 'FPLN' 255 0.00 0.00 0.00 1 0 148.30 148.65 12.50 14.70 13 'TUBE' 'FGA4' 'FPLN' 255 0.00 0.00 0.00 1 0 148.30 148.90 14.70 15.60 13 'TUBE' 'FGC2' 'FPLN' 11 0.00 0.00 0.00 1 0 148.30 155.20 12.13 12.30 13 'TUBE' 'FGA5' 'FPLN' 255 0.00 0.00 0.00 1 0 155.30 155.60 12.30 13.10 13 'TUBE' 'FGA6' 'FPLN' 255 0.00 0.00 0.00 1 0 155.00 155.60 13.10 14.00 13 'TUBE' 'FGA7' 'FPLN' 255 0.00 0.00 0.00 1 0 154.20 155.20 11.93 12.13 *FGA8 extension called FGAC 13 'TUBE' 'FGAC' 'FPLN' 255 0.00 0.00 0.00 1 0 155.20 155.60 11.05 12.30 *outer gas tank from old FGDR moved here 13 'TUBE' 'FGO3' 'FPLN' 255 0.00 0.00 0.00 1 0 148.30 150.20 82.60 85.00 13 'TUBE' 'FGO4' 'FPLN' 255 0.00 0.00 0.00 1 0 149.70 150.20 79.70 82.60 13 'TUBE' 'FGO5' 'FPLN' 255 0.00 0.00 0.00 1 0 148.30 150.20 78.90 79.70 13 'TUBE' 'FGO6' 'FPLN' 255 0.00 0.00 0.00 1 0 148.30 149.50 76.40 78.90 13 'TUBE' 'FGO7' 'FPLN' 255 0.00 0.00 0.00 1 0 148.30 155.60 75.70 76.40 13 'TUBE' 'FGO8' 'FPLN' 255 0.00 0.00 0.00 1 0 154.30 155.60 76.40 79.50 13 'TUBE' 'FGO9' 'FPLN' 255 0.00 0.00 0.00 1 0 154.30 154.80 79.50 82.60 13 'TUBE' 'FGOB' 'FPLN' 255 0.00 0.00 0.00 1 0 154.00 155.60 82.60 85.00 *sensitive region for new planar cells 13 'BOX ' 'FQSW' ' ' 203 0.00 0.00 0.00 1 0 0.00 0.00 0.00 0.00 13 'BOX ' 'FQSC' ' ' 221 0.00 0.00 0.00 1 0 0.00 0.00 0.00 0.00 13 'BOX ' 'FQSB' ' ' 212 0.00 0.00 0.00 1 0 0.00 0.00 0.00 0.00 *****end of new planar entry *sensitive region 13 'BOX ' 'FPSW' ' ' 203 0.00 0.00 0.00 1 0 0.00 0.00 0.00 0.00 13 'BOX ' 'FPSC' ' ' 221 0.00 0.00 0.00 1 0 0.00 0.00 0.00 0.00 13 'BOX ' 'FPSB' ' ' 212 0.00 0.00 0.00 1 0 0.00 0.00 0.00 0.00 *outer gas tank 13 'TUBE' 'FGO0' 'FPLN' 255 0.00 0.00 0.00 1 0 131.00 132.10 83.03 85.00 13 'TUBE' 'FGO1' 'FPLN' 255 0.00 0.00 0.00 1 0 131.00 148.30 82.60 83.03 13 'TUBE' 'FPOC' 'FPLN' 216 0.00 0.00 0.00 1 0 132.60 139.60 84.00 84.54 13 'TUBE' 'FGO2' 'FPLN' 255 0.00 0.00 0.00 1 0 147.80 148.30 83.03 85.00 * FGDR ! Forward Tracking Geometry Dead Radial Material * #================#========#====#============== * * Author: G.D.Patel, Liverpool. Created 09/09/87 * 2 ! = Length of subheader Word: 1 35 ! = # of modules +1 890910 ! = yymmdd of creation +2 * * 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 *L Shape| Name | Mother| Medium| R0 | PHI0 | Z0 | NCOPY |IROTM * * | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 * 5 TUBE | Zmin | Zmax | Rmin | Rmax | *mother 13 'TUBE' 'FRAD' 'FWDT' 1 0.00 0.00 0.00 1 0 155.60 173.20 10.00 85.00 13 'TUBE' 'FRAD' 'FWDT' 1 0.00 0.00 0.00 2 1 197.80 215.40 10.00 85.00 13 'TUBE' 'FRAD' 'FWDT' 1 0.00 0.00 0.00 3 2 240.00 257.60 10.00 85.00 13 'TUBE' 'FGEB' 'FWDT' 204 0.00 0.00 0.00 1 0 257.60 258.60 11.00 85.00 *inner gas tank 13 'TUBE' 'FGA8' 'FRAD' 255 0.00 0.00 0.00 1 0 155.60 156.20 11.05 12.30 13 'TUBE' 'FGA9' 'FRAD' 255 0.00 0.00 0.00 1 0 156.20 157.20 11.93 12.13 13 'TUBE' 'FGC3' 'FRAD' 11 0.00 0.00 0.00 1 0 156.20 172.60 12.13 12.30 13 'TUBE' 'FGAA' 'FRAD' 255 0.00 0.00 0.00 1 0 171.60 172.60 11.93 12.13 13 'TUBE' 'FGAB' 'FRAD' 255 0.00 0.00 0.00 1 0 172.60 173.20 11.05 12.30 *hub 13 'TUBE' 'FRH1' 'FRAD' 201 0.00 0.00 0.00 1 0 155.60 156.70 12.40 13.60 13 'TUBE' 'FRH2' 'FRAD' 201 0.00 0.00 0.00 1 0 155.60 158.70 13.60 14.60 13 'TUBE' 'FRH3' 'FRAD' 201 0.00 0.00 0.00 1 0 158.20 158.70 14.60 15.00 13 'TUBE' 'FRH4' 'FRAD' 207 0.00 0.00 0.00 1 0 158.70 170.70 13.86 15.00 13 'TUBE' 'FRH5' 'FRAD' 201 0.00 0.00 0.00 1 0 170.70 172.60 14.00 15.00 13 'TUBE' 'FRH6' 'FRAD' 201 0.00 0.00 0.00 1 0 171.00 172.40 15.00 16.00 *sensitive area *new planar caused masj to remove old ftdr 13 'TUBE' 'FRW1' 'FRAD' 217 0.00 0.00 0.00 1 0 158.18 158.70 15.00 75.00 13 'TUBE' 'FRS0' 'FRAD' 203 0.00 0.00 0.00 1 0 158.70 170.70 15.00 76.00 13 'TUBE' 'FRM3' 'FRAD' 218 0.00 0.00 0.00 1 0 170.70 172.40 16.00 76.00 *outer frame 13 'TUBE' 'FRB1' 'FRAD' 208 0.00 0.00 0.00 1 0 155.60 156.50 76.00 79.90 13 'TUBE' 'FRB2' 'FRAD' 220 0.00 0.00 0.00 1 0 155.60 158.70 75.00 76.00 13 'TUBE' 'FRM1' 'FRAD' 204 0.00 0.00 0.00 1 0 156.50 158.50 77.55 79.90 13 'TUBE' 'FRM2' 'FRAD' 219 0.00 0.00 0.00 1 0 156.50 172.40 76.00 77.55 *outer gas tank 13 'TUBE' 'FGOD' 'FRAD' 255 0.00 0.00 0.00 1 0 155.60 156.40 83.03 85.00 13 'TUBE' 'FGOA' 'FRAD' 255 0.00 0.00 0.00 1 0 155.60 173.20 82.60 83.03 13 'TUBE' 'FROC' 'FRAD' 215 0.00 0.00 0.00 1 0 159.00 171.00 84.00 84.53 13 'TUBE' 'FGOC' 'FRAD' 255 0.00 0.00 0.00 1 0 172.10 173.20 83.03 85.00 *cables 13 'TUBE' 'FCR3' 'FWDT' 214 0.00 0.00 0.00 1 0 230.70 250.50 85.00 85.10 13 'TUBE' 'FCW3' 'FWDT' 214 0.00 0.00 0.00 1 0 222.20 230.70 85.00 85.18 13 'TUBE' 'FCP3' 'FWDT' 214 0.00 0.00 0.00 1 0 208.00 222.20 85.00 85.24 13 'TUBE' 'FCR2' 'FWDT' 214 0.00 0.00 0.00 1 0 188.40 208.00 85.00 85.34 13 'TUBE' 'FCW2' 'FWDT' 214 0.00 0.00 0.00 1 0 180.00 188.40 85.00 85.42 13 'TUBE' 'FCP2' 'FWDT' 214 0.00 0.00 0.00 1 0 166.00 180.00 85.00 85.48 13 'TUBE' 'FCR1' 'FWDT' 214 0.00 0.00 0.00 1 0 146.10 166.00 85.00 85.58 13 'TUBE' 'FCW1' 'FWDT' 214 0.00 0.00 0.00 1 0 137.60 146.10 85.00 85.65 13 'TUBE' 'FCP1' 'FWDT' 214 0.00 0.00 0.00 1 0 130.00 137.60 85.00 85.72 * *----------------------------------------------------------- *----------------------------------------------------------- FGAQ ! Forward Tracking Geometry Active Planar Material2 * #================#========#======#============== * * >>>>> This version is for 'OLD' FTSIM MC * and This version is for 'NEW' FTSIM MC * * - Note that this bank is used in FTSIM AND FTREC * 27 ! = # of words in general header word: 1 980716 ! = YYMMDD Date of last update 2 3 ! = # of modules 3 28 ! = # of cells/module (in w) 4 8 ! = # of planes (in z) 5 0.60 ! = dz separation in z (nominal) 6 -64.575 ! = w0 (w - coordinate of first sense wire in plane) 7 6.15 ! = Dw (separation in w between cells) 8 * wire lengths for half a planar chamber are; 45.16 72.16 89.9 103.2 113.68 122.02 128.66 133.84 ! 9-16 56.07 52.69 52.23 52.23 52.69 56.07 ! 17-22 * offset from centre for middle 6 cells are; 40.835 43.885 44.915 44.915 43.885 40.835 ! 23-28 * *********************************************************************** * W A R N I N G Information on phi - wire orientation also exists * * in the FGRO bank used when positioning volumes * * IF ANY CHANGES NEEDED REMEMBER TO CHANGE BOTH !! * *********************************************************************** * W A R N I N G Information on Z - start also exists in the * * FGDP bank in position of sensitive volume. * * IF ANY CHANGES NEEDED REMEMBER TO CHANGE BOTH !! * *********************************************************************** 4 ! = # of words in module description 31 0 ! = module number 32 148.51 ! = z - start (jump 3 mm (4 in old planars!)) 33 0.523599! = phi - wire orientation 34 0.03 ! = wire stagger 35 * 4 ! = # of words in module description 36 1 ! = module number 37 190.71 ! = z - start (jump 3 mm (4 in old planars!)) 38 0.523599! = phi - wire orientation 39 0.03 ! = wire stagger 40 * 4 ! = # of words in module description 41 2 ! = module number 42 232.91 ! = z - start (jump 3 mm (4 in old planars!)) 43 0.523599! = phi - wire orientation 44 -0.03 ! = wire stagger 45 * FGRO ! Forward Tracking Geometry ROtation Matrices for M. Carlo * #================#========##============================ * 2 ! = length of subheader word: 1 6 ! = # of modules +1 870917 ! = date of creation (YYMMDD) +2 * L. # theta1 phi1 theta2 phi2 theta3 phi3 * 7 1 180.0 0.0 90.0 90.0 90.0 0.0 ! radial sense wires 7 1 90.0 3.75 90.0 93.75 0.0 0.0 ! rotation radial 1 7 2 90.0 2.50 90.0 92.50 0.0 0.0 ! rotation radial 2 7 3 90.0 0.0 180.0 90.0 90.0 90.0 ! planar sense wires 7 4 90.0 60.0 90.0 150.0 0.0 0.0 ! 2nd planar orient. 7 5 90.0 -60.0 90.0 30.0 0.0 0.0 ! 3rd planar orient. 7 6 90.0 30.0 90.0 120.0 0.0 0.0 ! NEW planar orient. * * FDQH ! Forward Digitisation Q planar Hit parameters for MC * #=======#============#========#==================== * * AUTHOR: Stephen Burke Lancaster CREATED 14/08/98 * 2 ! = Length of subheader Word: 1 0 ! = # OF MODULES +2 980801 ! = YYMMDD OF CREATION +3 * Probabilities for number of "missing" hits (zero is implicit) 0.200 ! = Probability of 1 hit on a "missing" cluster +4 0.200 ! = Probability of 2 hits on a "missing" cluster +5 0.200 ! = Probability of 3 hits on a "missing" cluster +6 0.200 ! = Probability of 4 hits on a "missing" cluster +7 0.000 ! = Probability of 5 hits on a "missing" cluster +8 0.000 ! = Probability of 6 hits on a "missing" cluster +9 * Probability for each wire for one-hit case (zero is implicit) 0.150 ! = Probability for wire one +10 0.150 ! = Probability for wire two +11 0.150 ! = Probability for wire three +12 0.150 ! = Probability for wire four +13 0.200 ! = Probability for wire five +14 * Probability for each wire for two-hit case (zero is implicit) 0.150 ! = Probability for wire one +15 0.150 ! = Probability for wire two +16 0.150 ! = Probability for wire three +17 0.150 ! = Probability for wire four +18 0.200 ! = Probability for wire five +19 * Probability for each wire for three-hit case (zero is implicit) 0.150 ! = Probability for wire one +20 0.150 ! = Probability for wire two +21 0.150 ! = Probability for wire three +22 0.150 ! = Probability for wire four +23 0.200 ! = Probability for wire five +24 * Probability for each missing wire for four-hit case (zero is implicit) 0.200 ! = Probability for wire one +25 0.200 ! = Probability for wire two +26 0.200 ! = Probability for wire three +27 0.200 ! = Probability for wire four +28 0.100 ! = Probability for wire five +29 * Probability for each missing wire for five-hit case (zero is implicit) 0.200 ! = Probability for wire one +30 0.200 ! = Probability for wire two +31 0.200 ! = Probability for wire three +32 0.200 ! = Probability for wire four +33 0.100 ! = Probability for wire five +34 * FDEF ! Forward Digitisation overall EFficiencies * #=======#====================##========== * * This is a run-dependent calibration bank giving the overall single-wire * efficiencies as used in FDIGI. The MC version is a dummy to show * the format. * * AUTHOR: Stephen Burke, Lancaster CREATED 01/06/95 * 2 ! = Length of subheader Word: 1 0 ! = # OF MODULES +2 980801 ! = YYMMDD OF CREATION +3 * Planar efficiencies by supermodule 0.950 ! = Efficiency for module 0 +4 0.950 ! = Efficiency for module 1 +5 0.950 ! = Efficiency for module 2 +6 * Radial efficiencies by supermodule 1.000 ! = Efficiency for module 0 +7 0.975 ! = Efficiency for module 1 +8 0.950 ! = Efficiency for module 2 +9 * New Planar efficiencies by supermodule 0.950 ! = Efficiency for module 0 +10 0.950 ! = Efficiency for module 1 +11 0.950 ! = Efficiency for module 2 +12 * FDQR ! Forward Digitisation Q planar paRameters for MC * #=======#============#==========#============== * * AUTHOR: S.J.MAXFIELD LIVERPOOL. CREATED 06/10/88 * 2 ! = Length of subheader Word: 1 0 ! = # OF MODULES +2 980801 ! = YYMMDD OF CREATION +3 1 ! = LSMEAR - Flag for smearing +4 1 ! = LNOISE - Flag for Noise hit production +5 0 0 0 1 2 ! = IFRDEB(1-3) - Debug Flags. 4,5 ev num range +6 -+10 200.0 ! = QFAC - -pre-factor for Charge Div +11 32767 ! = Saturation level for Charge Div +12 35.0 ! = DRFVEL - drift velocity in km/s +13 0.09 ! = TTSEP1 two-track resolution (minimum) +14 0.17 ! = TTSEP2 two-track resolution (maximum) +15 12 ! = MAXINT integration length +16 0.0120 ! = ERRD0 - minimum resolution on drift +17 0.0065 ! = ERRD1 - resolution proportional to drift +18 0.0550 ! = ERRD2 - coefficient of exp. rise in resolution +19 0.1967 ! = ERRD3 - scale of exp. rise in resolution +20 0.033 ! = DELCHG - fractional res on Charge +21 10.0 ! = DQUANT - absolute charge quantisation error +22 40.00 ! = Lorenz angle (degrees) +23 1.03 ! = Efficiency (wire 0) +24 0.99 ! = Efficiency (wire 1) +25 0.97 ! = Efficiency (wire 2) +26 0.97 ! = Efficiency (wire 3) +27 0.99 ! = Efficiency (wire 4) +28 1.03 ! = Efficiency (wire 5) +29 0.85 ! = Efficiency for 4-wire blocks (SM 0) +30 0.85 ! = Efficiency for 4-wire blocks (SM 1) +31 0.85 ! = Efficiency for 4-wire blocks (SM 2) +32 * Probabilities for first noise hit 0.152 ! = Probability of 1 track-related noise hit +33 0.038 ! = Probability of 2 track-related noise hits +34 0.003 ! = Probability of 3 track-related noise hits +35 0.00 ! = Probability of 4 track-related noise hits +36 0.00 ! = Probability of 5 track-related noise hits +37 * Probabilities for subsequent noise hits 0.266 ! = Probability of 1 track-related noise hit +38 0.076 ! = Probability of 2 track-related noise hits +39 0.013 ! = Probability of 3 track-related noise hits +40 0.000 ! = Probability of 4 track-related noise hits +41 0.000 ! = Probability of 5 track-related noise hits +42 0.012 ! = Drift distance at start of 2nd segment +43 0.014 ! = Drift distance at start of 3rd segment +44 0.26 ! = Drift distance at start of 4th segment +45 0.50 ! = Drift distance at end of 4th segment +46 0.00 ! = Probability of 1st segment +47 0.11 ! = Probability of 2nd segment +48 0.74 ! = Probability of 3rd segment +49 0.50 ! = Probability of hit being closer to the wire +50 * * FDQX ! Forward Digitisation Q planar eXtra parameters * #=======#============#=========#============== * * AUTHOR: Stephen Burke, Lancaster CREATED 14/08/98 * 2 ! = Length of subheader Word: 1 0 ! = # OF MODULES +2 980801 ! = YYMMDD OF CREATION +3 * 0.027 ! = sigma of exponential for shifted data +4 0.5 ! = probability of a positive shift +5 0.04 ! = sigma for correlated track related noise +6 0.5 ! = probability of correlated noise on +ve side +7 0.05 ! = angle of correlated noise track +8 0.2 ! = probability of correlated noise track +9 0.02 ! = offset distance of noise track +10 * *----------------------------------------------------------- FGAP ! Forward Tracking Geometry Active Planar Material * #================#========#======#============== * * - Note that this bank is used in FTSIM AND FTREC * 29 ! = # of words in general header word: 1 990125 ! = YYMMDD Date of last update 2 9 ! = # of modules 3 32 ! = # of cells/module (in w) 4 4 ! = # of planes (in z) 5 0.60 ! = dz separation in z (nominal) 6 -71.25 ! = w0 (w - coordinate of first sense wire in plane) 7 5.70 ! = Dw (separation in w between cells) 8 * wire lengths for half a planar chamber are; 46.6 68.0 86.7 101.5 112.1 122.1 129.3 135.3 140.1 143.7 ! 9-18 61.35 57.05 55.9 55.9 57.05 61.35 ! 19-24 * offset from centre for middle 6 cells are; CORRECTED 26/02/89 42.575 45.825 46.4 46.4 45.825 42.575 ! 25-30 * *********************************************************************** * W A R N I N G Information on phi - wire orientation also exists * * in the FGRO bank used when positioning volumes * * IF ANY CHANGES NEEDED REMEMBER TO CHANGE BOTH !! * *********************************************************************** * W A R N I N G Information on Z - start also exists in the * * FGDP bank in position of sensitive volume. * * IF ANY CHANGES NEEDED REMEMBER TO CHANGE BOTH !! * *********************************************************************** 4 ! = # of words in module description 31 0 ! = module number 32 136.15 ! = z - start 33 0.00 ! = phi - wire orientation 34 0.03 ! = wire stagger 35 * 4 ! = # of words in module description 36 1 ! = module number 37 140.35 ! = z - start 38 1.047197 ! = phi - wire orientation 39 0.03 ! = wire stagger 40 * 4 ! = # of words in module description 41 2 ! = module number 42 144.55 ! = z - start 43 -1.047197 ! = phi - wire orientation 44 -0.03 ! = wire stagger 45 * 4 ! = # of words in module description 46 3 ! = module number 47 178.35 ! = z - start 48 0.00 ! = phi - wire orientation 49 0.03 ! = wire stagger 50 * 4 ! = # of words in module description 51 4 ! = module number 52 182.55 ! = z - start 53 1.047197 ! = phi - wire orientation 54 -0.03 ! = wire stagger 55 * 4 ! = # of words in module description 56 5 ! = module number 57 186.75 ! = z - start 58 -1.047197 ! = phi - wire orientation 59 0.03 ! = wire stagger 60 * 4 ! = # of words in module description 61 6 ! = module number 62 220.55 ! = z - start 63 0.00 ! = phi - wire orientation 64 0.03 ! = wire stagger 65 * 4 ! = # of words in module description 66 7 ! = module number 67 224.75 ! = z - start 68 1.047197 ! = phi - wire orientation 69 0.03 ! = wire stagger 70 * 4 ! = # of words in module description 71 8 ! = module number 72 228.95 ! = z - start 73 -1.047197 ! = phi - wire orientation 74 0.03 ! = wire stagger 75 * ENDQ