@! @! This file is an example to include one layer of Intermediate Tracker @! at radius 20cm, -12.5cm < Z < 12.5 cm @! and spacial resolution in rphi and Z is 40 micron each. @! Hit point information are saved in the VTX Hit bank as a layer number 5. @! @!(Description) @! This is a sample input stream for the JLC quick detector simulator. @! Major detector parameters of this file are as follows. @! VTX : 4 layer from r=2.4 to 6.0cm @! 0.448 < Theta < Pi - 0.448 @! CDC : 30 cm < r < 230 cm, 100 sampling @! -230.0cm < z < 230.0 cm @! sigma-rphi=100 micron m @! sigma-z = 0.3 cm @! ECL : dE/E = 15%/Sqrt(E) + 1% @! R=250cm, -300 cm < Z < 300cm (Barrel) @! 45cmNSMPVX+1, Hits of Inner tracker is @! created, with a spacial resolution different @! from VTX. See comments below about how to set @! parameters for Inner Tracker. @! @! Tracking device parameters. @! 1 314159 ! seed for smearing 2 20. ! B field (kG) ( dummy if Swimmer specifies B ) @! @! @! Tracking device parameters. @! 11 30. ! inner radius(cm) 12 230. ! outer radius(cm) 13 -230. ! Z-(cm) 14 230. ! Z+(cm) 15 100 ! # sampling points 16 10 ! cut on # sampling points 17 1.E-2 ! sigma_(r-phi) 18 3.E-1 ! sigma_Z @! @! EM_calorimeter parameters. @! 31 156 ! # phi segments 32 50 ! # theta segments of barrel 33 18 ! # radial segments of endcap 34 45. ! inner radius(cm) 35 250. ! outer radius(cm) 36 -300. ! Z-(cm) 37 300. ! Z+(cm) 38 1.E-2 ! sigma_E/E pedestal for barrel 39 1.5E-1 ! sigma_E/E at 1 GeV 40 1.E-2 ! sigma_E/E pedestal for endcap 41 1.5E-1 ! sigma_E/E at 1 GeV @! @! HD_calorimeter parameters. @! 51 78 ! # phi segments 52 25 ! # theta segments of barrel 53 9 ! # radial segments of endcap 54 48. ! inner radius(cm) 55 270. ! outer radius(cm) 56 -324. ! Z-(cm) 57 324. ! Z+(CM) 58 1.E-2 ! sigma_E/E pedestal for barrel 59 4.E-1 ! sigma_E/E at 1 GeV 60 1.E-2 ! sigma_E/E pedestal for endcap 61 4.E-1 ! sigma_E/E at 1 GeV @! @! Vertex detector parameters. @! NSMPVX specifies # of measuring layers. Layer #0 is beampipe @! and layer #NSMPVX is CDC inner cylinder. A negative NSMPVX @! skips VTX simulation. @! @! ***** Caution ******************************************************* @! * Up to parameter #71 has a fixed format, while parameters #72 * @! * and after depend on NSMPVX. In the following, for instance, * @! * parameters #86-89 are for the CDC inner cylinder since NSMPVX * @! * is 3 here. If NSMPVX is 4, parameters #86-89 are for 3-rd VTX * @! * layer and the CDC inner cylinder parameters becom #90-93. * @! ********************************************************************* @! * 24-Dec-1998 : Data format is changed to allow gaussian error. @! * When word #70 (NERRVX) is 1, VTX space point is digitized by the @! * size of pixel ( phi and z pitch ). If NERRVX is 2, VTX Space @! * point is smeared by gaussian, whose standard deviation is given by @! * the word following CDC inner cylynder section. @! ********************************************************************* @! * 29-March-1999 : Add NERRVTX=3 format. @! * # of sampling layer is a sum of sampling layers of VTX and that of @! * inner tracker. Number of VTX layer must be greater than 2, since @! * they are used to create smeared VTX:Track_Parameters. @! * If NSMPVX+1 > NUMVTX, hit points for Inner Tracker are created and @! * stored in the bank, Production:IT;Hit_Points. @! * Spacing between VTX sampling layer must be equal since it is assumed @! * in the routine to create VTX Smeared track. @! ********************************************************************* @! 70 3 ! NERRVX Type of parameter format 71 6 ! # sampling layers + 1 = NSMPVX 72 4 ! NUMVTX Number of VTX layers ( those used for tracking) 73 4.E-4 ! r-phi resolution (cm) of VTX 74 4.E-4 ! Z resolution (cm) of VTX 75 40.E-4 ! r-phi resolution (cm) of Inner Tracker 76 40.E-4 ! Z resolution (cm) of Inner Tracker @! layer #0 (beampipe) 77 1. ! radius (cm) 78 -100. ! Z-(cm) 79 100. ! Z+(cm) 80 0.003 ! thickness in radiation length @! layer #1 81 2.4 ! radius (cm) 82 -5.0 ! Z-(cm) 83 5.0 ! Z+(cm) 84 0.003 ! thickness in radiation length @! layer #2 85 3.6 ! radius (cm) 86 -7.5 ! Z-(cm) 87 7.5 ! Z+(cm) 88 0.003 ! thickness in radiation leng5h @! layer #3 89 4.8 ! radius (cm) 90 -10.0 ! Z-(cm) 91 10.0 ! Z+(cm) 92 0.003 ! thickness in radiation length @! layer #4 93 6.0 ! radius (cm) 94 -12.5 ! Z-(cm) 95 12.5 ! Z+(cm) 96 0.003 ! thickness in radiation length @! ......... @! ......... @! @! For example to include a layer of Inner Tracker, uncomment following @! lines of parameter number 97 to 104, and set NSMPVX ( parameter number 71) @! to 6. Spacial resolution are specified by parameter number 75 and 76. @! @! layer #5 for IT 97 20.0 ! radius (cm) 98 -12.5 ! Z-(cm) 99 12.5 ! Z+(cm) 100 0.003 ! thickness in radiation length @! layer #NSMPVX (CDC inner cylinder) 101 25. ! radius (cm) 102 -230. ! Z-(cm) 103 230. ! Z+(cm) 104 0.01 ! thickness in radiation length @! @! @! ......... @! Parameters for Clustering. @! ......... 1001 100. ! Eth(MeV) for barrel EMC 1002 0.4 ! C1 for barrel EMC 1003 0.2 ! C2 for barrel EMC 1004 1.0 ! C3 for barrel EMC 1005 0.3 ! Alpha (to determine poistion) of EMC 1006 100. ! Eth(MeV) for Endcal EMC 1007 0.4 ! C1 for Endcap EMC 1008 0.2 ! C2 for endCap EMC 1009 1.0 ! C3 for Endcal EMC 1010 0.3 ! Alpha (to determine poistion) of HDC 1011 100. ! Eth(MeV) for barrel HDC 1012 0.4 ! C1 for barrel HDC 1013 0.2 ! C2 for barrel HDC 1014 1.0 ! C3 for barrel HDC 1015 0.25 ! Alpha (to determine poistion) of HDC 1016 100. ! Eth(MeV) for Endcap HDC 1017 0.4 ! C1 for Endcap HDC 1018 0.2 ! C2 for Endcap HDC 1019 1.0 ! C3 for Endcap HDC 1020 0.25 ! Alpha (to determine poistion) of HDC