LCDetectors/detectors/sid00/TrackParameters
diff -N sidaug05_lcdtrk.input
--- sidaug05_lcdtrk.input 22 Sep 2005 19:10:26 -0000 1.1
+++ /dev/null 1 Jan 1970 00:00:00 -0000
@@ -1,165 +0,0 @@
-0 NOTE: THE SPECIFICATION OF THE CONFIGURATION BEGINS AFTER THE TAG
-0 `1234567'. ALL PRECEEDING LINES WILL BE IGNORED AS DOCUMENTATION.
-0 NO DOCUMENTATION CAN BE INCLUDED AFTER THE TAG LINE.
-0
-0 BEGIN EACH DOCUMENTATION LINE WITH A NUMERAL (SUCH AS `0')
-0
-0 THIS INPUT FILE IS TO BE READ IN BY THE ROUTINE WHICH CAN HANDLE
-0 BOTH DISK AND BARREL INPUTS!!
-0
-0 YOU MUST ENTER THE CYLINDRICAL LAYERS IN ORDER OF INCREASING R,
-0 AND THE DISK LAYERS IN ORDER OF INCREASING Z. DISK AND BARREL
-0 LAYERS MAY BE INTERSPERSED, OR SEPARATED, AS LONG AS EACH
-0 OF THE TWO IS ORDERED WITHIN ITSELF. ASSUME THAT THE
-0 DETECTOR IS SYMMETRIC, SO FORGET ABOUT NEGATIVE COS(0).
-0
-0 YOU SHOULD INCLUDE A BEAM CONSTRAINT AS THE FIRST LINE WHETHER
-0 YOU WANT IT OR NOT. THE PROGRAM WRITES OUT BOTH THE BEAM-CONSTRAINED
-0 AND NON-BEAM-CONSTRAINED COVARIANCE MATRICES AUTOMATICALLY. IF
-0 YOU DON'T INCLUDE A BEAM CONSTRAINT, IT WILL NOT SWIM THE
-0 COVARIANCE MATRIX TO THE ORIGIN EVEN FOR THE NON-CONTRAINED
-0 COVARIANCE MATRIX.
-0
-0 Following the tag line, the information contained in each succeeding
-0 line is as follows:
-0 1 -> Number of total momentum points (20 maximum)
-0 2 -> Value of total momentum at each point (GeV/c)
-0 3 -> Number of cos(0) points
-0 4 -> Value of cos(0) at each point
-0 5 to
-0 5+N-1 -> Parameters for each of the N layers (see below for more
-0 information on how one specifies a layer
-0 5+N -> The value `-999.' to specify that this is the last line
-0 in the file, followed by the B field in Tesla.
-0
-0 The information to be put in each of the 7 columns for each layer
-0 is as follows:
-0
-0 c1) A comment digit - if 0, the layer is ignored.
-0
-0 c2) Radius of layer for cylindrical layer in cm.
-0 Z cordinate of layer for disk layer in cm.
-0
-0 c3) Radiation length of layer (in % of X_0)
-0
-0 c4) Measurement resolution of layer (in microns). For a passive
-0 layer, just make this large (like 99999.)
-0
-0 c5) Orientation of measurment layer in z-phi plane (cylinders)
-0 or r-phi plane (disks), in radians. An angle of 0 corresponds
-0 to an azimuthal orientation for cylinders, and a radial
-0 orientation for disks.
-0
-0 c6) For cylinders, this is the minimum z extent of the layer in cm.
-0 If the minimum z is less than 0 (which it almost certainly
-0 will be!), the value of this input should be negative. For
-0 disks, this is the inner radial extent in cm.
-0
-0 c7) The maximum z for cylinders, and the outer radius for disks.
-0
-0 c8) This is `1' for an r-phi (cylindrical) layer, and `2' for an
-0 r-z (disk) layer. For nldtrk_barrel, the measurement error
-0 is ignored for any layer with a `2' (equivalent to setting
-0 the error to a very large number).
-0 IF THIS NUMBER IS -1, then this is a beam constraint,
-0 which means that errors will be swum to this layer, but
-0 that the measurment info will be included for p, phi, and
-0 lambda, but not for the r/phi and r/z impact paremeters.
-0
-0 SOME RADIATION LENGTHS (cm)
-0
-0 Carbon Fiber 24.00
-0 Si 9.37
-0 Titanium 3.56
-0 Beryllium 35.28
-0 Rohacell 31 1340.00
-0 Polystyrene 7839.00
-0
-0
-0 13
-0 1.0 1.8 3.2 5.6 10. 18. 32. 56. 100. 180. 320. 560. 1000.
-0 44
-0.000 .109 .206 .292 .369 .438 .499 .553 .602 .645 .684 .718 .749 .776 .800 .822 .842 .859 .874 .888 .900 .911 .921 .929 .937 .944 .950 .955 .960 .965 .968 .972 .975 .978 .980 .982 .984 .986 .987 .989 .990 .991 .992 .993
- 1234567
- 13
- 1.0 1.8 3.2 5.6 10. 18. 32. 56. 100. 180. 320. 560. 1000.
- 41
-.000 .109 .206 .292 .369 .438 .499 .553 .602 .645 .684 .718 .749 .776 .800 .822 .842 .859 .874 .888 .900 .911 .921 .929 .937 .944 .950 .955 .960 .965 .968 .972 .975 .978 .980 .982 .984 .986 .987 .989 .990 .991 .992 .993
- 1 .00 .00 2.0 .000 -9999.00 9999.00 -1 Beam constraint
- 1 1.19 .07 99999.0 .000 -6.25 6.25 1 25 um of Ti
- 1 1.20 .11 99999.0 .000 -6.25 6.25 1 400 um of Be
- 0 0 0 0 0 0 0 0
- 0 0 0 0 0 0 0 0 1 X0 scaled up by 33% for conical pipe angle (theta=110-190mrad)
- 1 1.20 1.33 99999.0 .000 6.25 167.9 1 Ignore fact that tracks cross pipe up to 3mm farther in r.
- 0 0 0 0 0 0 0 0
- 1 1.39 .053 5.0 .000 -6.25 6.25 1 VXD Barrel Layers begin
- 1 1.41 .053 5.0 1.571 -6.25 6.25 1
- 1 2.49 .053 5.0 .000 -6.25 6.25 1
- 1 2.51 .053 5.0 1.571 -6.25 6.25 1
- 1 3.59 .053 5.0 .000 -6.25 6.25 1
- 1 3.61 .053 5.0 1.571 -6.25 6.25 1
- 1 4.79 .053 5.0 .000 -6.25 6.25 1
- 1 4.81 .053 5.0 1.571 -6.25 6.25 1
- 1 5.99 .053 5.0 .000 -6.25 6.25 1
- 1 6.01 .053 5.0 1.571 -6.25 6.25 1 VXD Barrel Layers end
- 0 0 0 0 0 0 0 0
- 1 6.50 3.00 99999.0 .000 1.50 7.30 2 VXD barrel endplate support (Mixture model 0.58cm G10)
- 0 0 0 0 0 0 0 0
- 1 7.59 .117 5.0 .000 1.60 7.50 2 VXD Endcap Begins
- 1 7.61 .117 5.0 1.571 1.60 7.50 2
- 1 7.622 .28 99999.0 .000 1.60 2.30 2 VXD Endcap disk support a pair of
- 1 7.622 .28 99999.0 .000 6.80 7.50 2 1mm thick Be rings
- 1 9.49 .117 5.0 .000 1.60 7.50 2
- 1 9.51 .117 5.0 1.571 1.60 7.50 2
- 1 9.522 .28 99999.0 .000 1.60 2.30 2
- 1 9.522 .28 99999.0 .000 6.80 7.50 2
- 1 12.49 .117 5.0 .000 2.00 7.50 2
- 1 12.51 .117 5.0 1.571 2.00 7.50 2
- 1 12.522 .28 99999.0 .000 2.00 2.70 2
- 1 12.522 .28 99999.0 .000 6.80 7.50 2
- 1 17.99 .117 5.0 .000 2.00 7.50 2
- 1 18.01 .117 5.0 1.571 2.00 7.50 2
- 1 18.022 .28 99999.0 .000 2.00 2.70 2
- 1 18.022 .28 99999.0 .000 6.80 7.50 2
- 0 0 0 0 0 0 0 0
- 1 7.00 .28 99999.0 .000 -6.25 6.25 1 Beryllium VXD Barrel support outer shell
- 1 11.18 .22 99999.0 .000 -24.00 24.00 1 Cryostat coating 200um Aluminum
- 1 11.20 .029 99999.0 .000 -24.00 24.00 1 Central cryostat
- 1 11.70 .029 99999.0 .000 -24.00 24.00 1 Divide foam insulation into four layers
- 1 12.20 .029 99999.0 .000 -24.00 24.00 1
- 1 12.70 .029 99999.0 .000 -24.00 24.00 1
- 0 0 0 0 0 0 0 0
- 1 20.98 .22 99999.0 .000 2.34 11.20 2 Cryostat endplate coating 200um Al
- 1 21.00 .058 99999.0 .000 2.34 11.20 2 Cryostat endplates
- 1 22.00 .058 99999.0 .000 2.34 11.20 2 Divide foam insulation into 4 layers
- 1 23.00 .058 99999.0 .000 2.34 11.20 2
- 1 24.00 .058 99999.0 .000 2.34 11.20 2
- 0 0 0 0 0 0 0 0
- 1 20.00 0.87 5.0 .000 -26.7 26.7 1 Begin Central tracker
- 1 46.30 0.89 5.0 .000 -61.7 61.7 1
- 1 72.50 0.90 5.0 .000 -96.7 96.7 1
- 1 98.80 0.92 5.0 .000 -131.7 131.7 1
- 1 121.30 0.93 5.0 .000 -161.7 161.7 1 End Central tracker
- 0 0 0 0 0 0 0 0
- 1 26.7 0.62 99999.0 .000 18.0 44.3 2 Begin barrel support rings
- 1 27.0 0.56 99999.0 .000 25.5 44.3 2 Begin tracker power/readout
- 1 30.0 0.72 5.0 .000 4.0 25.0 2 Begin Disk tracker
- 1 30.4 0.72 5.0 0.100 4.0 25.0 2
- 1 61.7 0.62 99999.0 .000 44.3 70.5 2
- 1 62.0 1.02 99999.0 .000 51.8 70.5 2
- 1 65.0 0.73 5.0 0.000 7.9 51.3 2
- 1 65.4 0.73 5.0 0.100 7.9 51.3 2
- 1 96.7 0.62 99999.0 .000 70.5 96.8 2
- 1 97.0 1.05 99999.0 .000 78.0 96.8 2
- 1 100.0 0.75 5.0 0.000 11.7 77.5 2
- 1 100.4 0.75 5.0 0.100 11.7 77.5 2
- 1 131.7 0.62 99999.0 .000 96.8 119.3 2
- 1 132.0 1.85 99999.0 .000 104.3 119.3 2
- 1 135.0 0.76 5.0 0.000 15.6 103.8 2
- 1 135.4 0.76 5.0 0.100 15.6 103.8 2
- 1 161.7 0.62 99999.0 .000 119.3 126.5 2 End barrel support rings
- 1 165.0 0.78 5.0 0.000 18.9 126.3 2
- 1 165.4 0.78 5.0 0.100 18.9 126.3 2 End Disk tracker
- 1 167.0 2.44 99999.0 .000 104.3 119.3 2 End tracker power/readout
- 0 0 0 0 0 0 0 0
- 1 -999. 5.0 0.0 .000 0.0 0.0 1 Magnetic field
