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revision 3.8 by cafagna, Wed Dec 14 03:16:08 2005 UTC revision 3.25 by cafagna, Sun Dec 17 14:53:18 2006 UTC
# Line 1  Line 1 
1    # Revision 3.21  2006/12/05 18:45:29  bruno
2    # Update of the CARD geometry
3    # Simulated also legs, table and magnetic screen
4  #  #
5  # $Id: v_100.txt,v 3.7 2005/10/18 08:24:35 cafagna Exp $  # $Id: v_100.txt,v 3.20 2006/11/16 18:45:29 pam-ba Exp $
6  #  #
7  # $Log: v_100.txt,v $  # $Log: v_100.txt,v $
8    # Revision 3.20  2006/11/16 18:45:29  pam-ba
9    # Simulated an aluminum container for S4
10    #
11    # Revision 3.19  2006/11/16 12:01:13  pam-ba
12    # S4 dimensions corrected.
13    #
14    # Revision 3.18  2006/11/10 11:39:35  pam-ba
15    # S2 and S1 z-positions corrected, He3 and plystyrene mixture added, Top Plate geometry simulated and titanium mixture added.
16    #
17    # Revision 3.17  2006/10/13 16:36:59  pam-ba
18    # Added a new material, the cadmium, for ND
19    #
20    # Revision 3.16  2006/10/12 11:11:21  pam-ba
21    # ND geometry updated.
22    #
23    # Revision 3.15  2006/10/02 11:17:30  pam-ba
24    # NDET 'SPHE' data card meaning changed. Now it eliminates the whole PAMELA container.
25    #
26    # Revision 3.14  2006/06/30 15:38:16  pam-ba
27    # S22 and S12 heights positioned in GPAMELA at the nominal heights in PAMELA (see document: Main geometrical parameters of the PAMELA sub-detectors, 20 December 2005)
28    #
29    # Revision 3.13  2006/06/05 13:56:17  pamela
30    # Gigantic resonance added for gamma enetering in the calorimeter absorber
31    #
32    # Revision 3.12  2006/05/18 10:52:32  pam-ba
33    # TOF geometry completed and a new material, the polystyrene (density 35 g/l), added
34    #
35    # Revision 3.11  2006/05/11 23:53:15  cafagna
36    # More bugs fixed in the CALO ntple structure filling
37    #
38    # Revision 3.10  2006/04/10 11:07:43  cafagna
39    # GEN data card updated, ZDGEN added
40    #
41    # Revision 3.9  2005/12/14 03:34:40  cafagna
42    # An update of the history and inform readme files.
43    #
44    # Revision 3.8  2005/12/14 03:16:08  cafagna
45    # Neutron detector added. Geometry and GPCALOR package
46    #
47  # Revision 3.7  2005/10/18 08:24:35  cafagna  # Revision 3.7  2005/10/18 08:24:35  cafagna
48  # History updated  # History updated
49  #  #
# Line 35  Line 77 
77  #CMZ :  1.00/03 30/04/96  12.23.59  by  Francesco Cafagna  #CMZ :  1.00/03 30/04/96  12.23.59  by  Francesco Cafagna
78  #CMZ :  1.00/02 05/04/96  15.31.25  by  Francesco Cafagna  #CMZ :  1.00/02 05/04/96  15.31.25  by  Francesco Cafagna
79  #CMZ :  1.00/01 28/11/95  18.51.23  by  Francesco Cafagna  #CMZ :  1.00/01 28/11/95  18.51.23  by  Francesco Cafagna
80  #-- Author :    Francesco Cafagna   28/11/95  #-- Author :    Francesco Cafagna   28/11/95
81    
82    December 2006, Bari
83    
84    CARD GEOMETRY:
85    Positions, dimensions and quotes have been updated. Indeed, the aluminium table
86    under S1, legs included, and the magnetic screen between the CARD and S2 have
87    been added.
88    
89    #-------------------------------------------------------------------------
90    
91    November 2006, Bari
92    
93    
94    S4 GEOMETRY UPDATED:
95    The x and y dimensions have been corrected because they were wrong.
96    A container of aluminum has been added having walls of thickness equal
97    to 0.1 cm.
98    
99    TOF POSITIONS DEFINITELY UPDATED:
100    S2 and S1 have been positioned again, after the simulation of the top plate.
101    Before now, the positions were put ad hoc based on the positions given by
102    Sergio Ricciarini in the document 'Main geometrical parameters of the PAMELA
103    sub-detectors' released by O. Adriani, L. Bonechi, E. Mocchiutti and
104    S. Ricciarini on the 20th of December 2005.. These positions were
105    lightly approximated.
106    
107    ND GEOMETRY COMPLETED.
108    The He3 and the polyethylene (CH2) have been added to fill
109    the volumes NDTI and NDPB in the neutron detector. Leonov gave us the
110    details of these materials.
111    
112    TOP PLATE GEOMETRY ADDED.
113    The top plate geometry has been simulated as a N2 box that has the same
114    dimensions of CATA. Inside it, at the right positions, there are S2 and CATA.
115    The real top plate is a rectangular window having a thickness of 0.5 cm
116    (volume TPTL emptied by the volume TPCV). This volume is filled with a mixture
117    of titanium (90%), aluminum (6%) and vanadium (4%). Other parts of titanium
118    are the four volumes TPTU, which are positioned at the corners of TPTL at the
119    same height of CATA, and the four volumes TPTM, which are positioned at the
120    corners of TPTL, at the same height of S2.
121    The geometry  of the top plate is based on a simplified version of the CAD
122    drawings.
123    
124    October 2006, Bari
125    
126    The geometry of the neutron detector has been updated. Some dimensions of some
127    volumes have been corrected and the aluminum cover and the aluminum boxes to
128    put the cables have been added. A new material, the cadmium, has been also
129    defined.
130    
131    September 2006, Bari
132    
133    SPHE and ND data card bugs fixed: the definition of the ND data card,
134    missing in the subroutine gpgeo.F, has been added; the meaning of the SPHE
135    data card has been changed. Before the correction the data card:
136    NDET 'SPHE' was used to delete the spherical top shell to substitute it with
137    a flat one.Now NDET 'SPHE' eliminates the whole container of PAMELA.
138    
139    
140    June 2006, Bari
141    
142    The center of the scintillator planes S22Y (variable ZPAMS22Y in gpdgeo.inc)
143    and S12X (variable ZPAMS12X in gpdgeo.inc) has been positioned at the
144    nominal height as measured in PAMELA (See the document: "Main geometrical
145    parameters of the PAMELA sub-detectors" by O. Adriani, L. Bonechi,
146    E. Mocchiutti, S. Ricciarini, 20 December 2005). Follows that the positions
147    of S21Y and S12X are higher than those in the cited document due to the fact
148    that in GPAMELA the thickness of the mylar has been considered while in the
149    document it has been neglected.
150    
151    
152    May 2006, Bari & Tor Vergata
153    
154    GIGANTIC RESONANCE FOR NEUTRON DETECTOR ADDED
155    
156       Routines to simulate the gigantic resonance of gammas in Tungsten
157       have been added.  The GPGIG routine is called in GUSTEP if a gamma
158       enter the calorimeter absorber.  This is the steering routine to
159       simulate the production of neutrons from gigantic resonance.  It
160       does checks on STEP lenght. If the range is smaller than the other
161       selected for that step, it does generate the neutron and stops the
162       gamma. Please note that the neutron has now a new particle
163       number. This is to tag the gigantic resonance neutrons.
164    
165    
166    May 2006, Bari & Florence
167    
168    CAL HIT STRUCTURE BUGS FIXED
169    
170       The maximum number of hit is now different for the two hit
171       structures: CALST and CALI. Vectors inizialization and HBOOK
172       ntple booking have been updated. The GPDCAL routine has been fixed
173       so to handle the case in wich hits stored are more than the maximum
174       number of hit.
175       In this case in the ntple up to the maximum number of hits will be stored.
176    
177    April 2006, Bari
178    
179    TOF GEOMETRY AND POSITIONS UPDATED AND NEW MIXTURES ADDED
180    
181       The TOF geometry has been modified. The following boxes have been
182       added: POL1, POL2 and POLY made of polystyrene, S11M, S12M, S21M,
183       S22M, S31M and S32M made of mylar, S1A, S2A and S3 made of air and
184       S1 and S2 made of aluminum. Each scintillator paddle has been put
185       in his mylar box and the other materials: air, polystyrene, and
186       aluminum have been added at their nominal positions.  According to
187       Naples people the araldite glue has been simulated has an air
188       gap. For this work two new materials: the Mylar (MYLAR) and the
189       polystyrene (POLYSTYRENE) with a density of 35 g/l have been
190       defined as a mixture.  The positions of the three bottom
191       scintillator planes that contain respectively the S12X, S22Y and
192       S32X paddles have been regulated according on their official
193       positions in PAMELA.
194    
195    Mar 2006, Bari
196    
197    GEN DATA CARD UPDATED
198    
199       To enable generation on a surface perpendicular to the XY plane,
200       GEN gata card has been updated addingh a new parameter: ZDGEN. This is
201       the dimension, along Z axis , of the generation surface. The Z
202       position will be randomply chosen according to: Z= ZDGEN*RNDM_NUMBER +
203       ZGEN, i.e. Z= GEN(6)*RNDM_NOMBER + GEN(3).
204    
205  Nov 2005, Bari  Nov 2005, Bari
206    
207    GUHADR AND GUPHAD UPDATED
208    
209       To use GCALOR package the hadronic routines have been updated. The
210       inizialization routine call CALSIG, while the other calls GCALOR.
211    
212    NEW GPKEY ADDED: GPCALOR
213    
214       This logical has been added to enable the GCALOR package. This flag
215       is set to true in GPDAT if the data card: HPAK, is set to
216       'GCAL'. The gpkey.inc has been update accordingly.
217    
218    
219  NEUTRON DETECTOR ADDED. NEW DIR: GPND  NEUTRON DETECTOR ADDED. NEW DIR: GPND
220    
221     The neutron detector has been added. At the moment it is just the     The neutron detector has been added. At the moment it is just the
# Line 55  GCALOR PACKAGE ADDED. NEW DIRs: GPCALOR, Line 232  GCALOR PACKAGE ADDED. NEW DIRs: GPCALOR,
232     http://www.staff.uni-mainz.de/zeitnitz/Gcalor/gcalor.html     http://www.staff.uni-mainz.de/zeitnitz/Gcalor/gcalor.html
233     This package should be distributed with the GEANT library but is     This package should be distributed with the GEANT library but is
234     not up to date. I did download the latest release and stored into     not up to date. I did download the latest release and stored into
235     gpcalor directory of the gpamela tree.     gpcalor directory of the gpamela tree.
236     Then I did clean up the code substituting the explicit inclusion of     Then I did clean up the code substituting the explicit inclusion of
237     the commons with a #include cpp directive. In parallel I did     the commons with a #include cpp directive. In parallel I did
238     extract the commons to include files having the same common name. I     extract the commons to include files having the same common name. I
# Line 66  GCALOR PACKAGE ADDED. NEW DIRs: GPCALOR, Line 243  GCALOR PACKAGE ADDED. NEW DIRs: GPCALOR,
243     NOTE: There are still problem due to different common sizes. In     NOTE: There are still problem due to different common sizes. In
244     particular the common MICFIL is maller in the geant library     particular the common MICFIL is maller in the geant library
245     libgeant.a . There the subroutines: gmorin, gmxsec, gmplxs, are     libgeant.a . There the subroutines: gmorin, gmxsec, gmplxs, are
246     present and linked using a wrong version of the common. This still needs to be debuged.     present and linked using a wrong version of the common. This still needs to be debuged.
247     NOTE2: The auxiliary files with the cross sections: chetc.dat.gz     NOTE2: The auxiliary files with the cross sections: chetc.dat.gz
248     and xsneut.dat.gz, have been added to the aux directory and moved     and xsneut.dat.gz, have been added to the aux directory and moved
249     to the working directory, i.e. GPAMELA_BIN. The GCALOR routine will     to the working directory, i.e. GPAMELA_BIN. The GCALOR routine will
# Line 74  GCALOR PACKAGE ADDED. NEW DIRs: GPCALOR, Line 251  GCALOR PACKAGE ADDED. NEW DIRs: GPCALOR,
251     searched there at first, then in the working directory. A fool     searched there at first, then in the working directory. A fool
252     proof policy has to be implemented to avoid problem with     proof policy has to be implemented to avoid problem with
253     synchronization fo these files.     synchronization fo these files.
     
254    
255  The GCALOR package  
256    The GCALOR package
257    
258    June 2005, Bari
259    
260    TOF SCINTILLATOR PADDLES UPDATED
261    
262       The dimensions and the number of the scintillator paddles for each
263       TOF planes have been updated.
264    
265  May 2005, Bari  May 2005, Bari
266    
267  Some updates on the latest modification done in the past year.  Some updates on the latest modification done in the past year.
268    
269  NEW DATA CARD ADDED: HFSF  NEW DATA CARD ADDED: HFSF
270    
271     To define a policy for the random number initial seeds     To define a policy for the random number initial seeds
272     definition. Using this card is possible to override GEANT seeds     definition. Using this card is possible to override GEANT seeds
273     defined via NRDM card. The policy is selected according to the     defined via NRDM card. The policy is selected according to the
274     values:     values:
275    
276     - 1: The seeds are initialized to the initial values found in a user     - 1: The seeds are initialized to the initial values found in a user
277          defined file or the default file: INPUTSEED.DAT          defined file or the default file: INPUTSEED.DAT
278      
279     - 2: The seeds are initialized to the final values found in a user defined     - 2: The seeds are initialized to the final values found in a user defined
280          file or the default file: INPUTSEED.DAT          file or the default file: INPUTSEED.DAT
281    
282     The case 1 must be used in case the user needs to reproduce the     The case 1 must be used in case the user needs to reproduce the
# Line 100  NEW DATA CARD ADDED: HFSF Line 285  NEW DATA CARD ADDED: HFSF
285     binary file and pass the filename to the program using the *FLSF     binary file and pass the filename to the program using the *FLSF
286     data card. In case the user file is not specified the default     data card. In case the user file is not specified the default
287     INPUTSEED.DAT will be used.     INPUTSEED.DAT will be used.
288      
289     The case 2 must be used in case the user needs to chain several     The case 2 must be used in case the user needs to chain several
290     GPAMELA run and likes to be sure he is starting the random     GPAMELA run and likes to be sure he is starting the random
291     generator using the right sequence. In this case the user must     generator using the right sequence. In this case the user must
# Line 118  NEW DATA CARD ADDED: *FSFI Line 303  NEW DATA CARD ADDED: *FSFI
303     filled with his own seeds. For this purpose an utility program:     filled with his own seeds. For this purpose an utility program:
304     writeseeds.f, has been added in the aux directory.  In case the     writeseeds.f, has been added in the aux directory.  In case the
305     *FSFI card is not specified the default values: 24 and INPUTSEEDS.DAT, will     *FSFI card is not specified the default values: 24 and INPUTSEEDS.DAT, will
306     be used as LUN and file name respectively.     be used as LUN and file name respectively.
307      
308  NEW DATA CARD ADDED: *LSFI  NEW DATA CARD ADDED: *LSFI
309    
310     Using this card the user can specify the logical unit and name of     Using this card the user can specify the logical unit and name of
# Line 127  NEW DATA CARD ADDED: *LSFI Line 312  NEW DATA CARD ADDED: *LSFI
312     run. This file is a FORTRAN binary one. This file can be used as     run. This file is a FORTRAN binary one. This file can be used as
313     input one specifying it in the *FSFI data card of the next GPAMELA     input one specifying it in the *FSFI data card of the next GPAMELA
314     run.  In case the *LSFI card is not specified the default values: 26     run.  In case the *LSFI card is not specified the default values: 26
315     and HBOOKFILENAME.DAT (as sepified in *HFI), will be used as LUN     and HBOOKFILENAME.DAT (as sepified in *HFI), will be used as LUN
316     and file name respectively.     and file name respectively.
317      
318  NEW UTILITY PROGRAMS ADDED: writeseeds.f, readseeds.f  NEW UTILITY PROGRAMS ADDED: writeseeds.f, readseeds.f
319    
320     These new programs have been added in the aux directory. Using these a     These new programs have been added in the aux directory. Using these a
# Line 162  TRD GEOMETRY AND CALIBRATION REVIEWD Line 347  TRD GEOMETRY AND CALIBRATION REVIEWD
347     has been revied and new sets of calibration constants calculated     has been revied and new sets of calibration constants calculated
348     comparing the beam test data with the GPAMELA results. The new     comparing the beam test data with the GPAMELA results. The new
349     constants are about 3% larger than the previous ones.     constants are about 3% larger than the previous ones.
350      
351  TRACKER GEOMETRY REVIEWED. NEW VOLUME DEFINED: THBP, TPAS, TPAI  TRACKER GEOMETRY REVIEWED. NEW VOLUME DEFINED: THBP, TPAS, TPAI
352      
353     Thanks to Lorenzo Bonechi for the drawings and explanations. Now the     Thanks to Lorenzo Bonechi for the drawings and explanations. Now the
354     hybrd cards have been put into the simulation and the geometry updated     hybrd cards have been put into the simulation and the geometry updated
355     considering the dead zones in the silicon detectors. The hybrid zone     considering the dead zones in the silicon detectors. The hybrid zone
356     has been simulated as well. At the moment the hybrid is simulated as     has been simulated as well. At the moment the hybrid is simulated as
357     a G10 plates. The full height of the tracker magnet has been     a G10 plates. The full height of the tracker magnet has been
358     reviewed as well.     reviewed as well.
359    
360     The tracker ladder is now simulated inside a nitrogen box: TPAS,     The tracker ladder is now simulated inside a nitrogen box: TPAS,
361     placed inside an aluminum frame: TRPB. Each silicon ladder has been     placed inside an aluminum frame: TRPB. Each silicon ladder has been
# Line 178  TRACKER GEOMETRY REVIEWED. NEW VOLUME DE Line 363  TRACKER GEOMETRY REVIEWED. NEW VOLUME DE
363     smaller silicon detector: TPAI, has been placed inside the larger     smaller silicon detector: TPAI, has been placed inside the larger
364     silicon block TRSL. In this way the subdivided silicon ladder can     silicon block TRSL. In this way the subdivided silicon ladder can
365     be upgraded with an indipendend roto-translation for each sensor.     be upgraded with an indipendend roto-translation for each sensor.
366      
367     The TRPB aluminum frame has been enlarged to fit the external     The TRPB aluminum frame has been enlarged to fit the external
368     magnet canister frame.     magnet canister frame.
369      
370     The last plane has been flipped with a 180 degree rotation around     The last plane has been flipped with a 180 degree rotation around
371     the X axis.     the X axis.
372      
373  TRACKER HIT STRUCTURE REVIEWED  TRACKER HIT STRUCTURE REVIEWED
374    
375     Taking into account the new version of the tracker geometry, the hit     Taking into account the new version of the tracker geometry, the hit
376     structure for this detector has been revied.     structure for this detector has been revied.
377    
378  CALORIMETER GEOMETRY REVIEWED  CALORIMETER GEOMETRY REVIEWED
379    
380     Marco Albi reviewed the calorimeter dimentions and positioning.     Marco Albi reviewed the calorimeter dimentions and positioning.
381    
382    
383  29 March 2004, Bari  29 March 2004, Bari
# Line 206  NON-REPRODUCIBILITY PROBLEM OF A GPAMELA Line 391  NON-REPRODUCIBILITY PROBLEM OF A GPAMELA
391     the GARFIELD code for details). Follows that different runs produce     the GARFIELD code for details). Follows that different runs produce
392     different results without changing the initial seeds. To have identical     different results without changing the initial seeds. To have identical
393     results in different runs, the GARFIELD program has to start typing the     results in different runs, the GARFIELD program has to start typing the
394     noRNDM_initialisation switch. To avoid of specifying this switch     noRNDM_initialisation switch. To avoid of specifying this switch
395     by the user,     by the user,
396     the GARFIELD package has been upgraded with a patch. In this way the problem     the GARFIELD package has been upgraded with a patch. In this way the problem
397     is partially solved because, now, the initial seeds of the random generators     is partially solved because, now, the initial seeds of the random generators
# Line 214  NON-REPRODUCIBILITY PROBLEM OF A GPAMELA Line 399  NON-REPRODUCIBILITY PROBLEM OF A GPAMELA
399     activated by the user for changing the initial seeds in the GPAMELA program.     activated by the user for changing the initial seeds in the GPAMELA program.
400     Work is in progress for a more general correction of this problem.     Work is in progress for a more general correction of this problem.
401     Please, use the updated GARFIELD code released with the CVS version v4r1     Please, use the updated GARFIELD code released with the CVS version v4r1
402     to fix this problem.       to fix this problem.
403    
404    
405  RNDM ROUTINE REPLACED BY THE GRNDM ROUTINE IN GPXTR AND NPOISS.  RNDM ROUTINE REPLACED BY THE GRNDM ROUTINE IN GPXTR AND NPOISS.
# Line 227  BUG FOUND AND FIXED: the set and detecto Line 412  BUG FOUND AND FIXED: the set and detecto
412     the GPSED common when the set and the detector ZEBRA banks are filled     the GPSED common when the set and the detector ZEBRA banks are filled
413     during a run. In general the values of the set and detector addresses     during a run. In general the values of the set and detector addresses
414     depend on the number of active detectors in a given run. ISCAL=12 and     depend on the number of active detectors in a given run. ISCAL=12 and
415     IDCASI=1 are only right when all the detectors of GPAMELA are active.     IDCASI=1 are only right when all the detectors of GPAMELA are active.
416    
417  9 December 2003, Bari  9 December 2003, Bari
418    
# Line 271  BUG FOUND AND FIXED: the set and detecto Line 456  BUG FOUND AND FIXED: the set and detecto
456     -ICAPLANE(i) contains the number of hit plane;     -ICAPLANE(i) contains the number of hit plane;
457     -ICASTRIP(i) contains the number of hit strip;     -ICASTRIP(i) contains the number of hit strip;
458     -ICAMOD(i) can assume different values based on the number of times and     -ICAMOD(i) can assume different values based on the number of times and
459                positions in which a `long strip' has been hit.            positions in which a `long strip' has been hit.
460     -ENESTRIP(i) contains the deposited energy in the hit strip;     -ENESTRIP(i) contains the deposited energy in the hit strip;
461     where i is the number of hit (1<i<4224).     where i is the number of hit (1<i<4224).
462     Note that in the calorimeter each hit is filled at the end of the event and     Note that in the calorimeter each hit is filled at the end of the event and
# Line 297  BUG FOUND AND FIXED: the set and detecto Line 482  BUG FOUND AND FIXED: the set and detecto
482     The energy deposited in the calorimeter is calculated in GeV.     The energy deposited in the calorimeter is calculated in GeV.
483    
484     To store the hits in the calorimeter the subroutine GSAHIT is used instead of     To store the hits in the calorimeter the subroutine GSAHIT is used instead of
485     GSCHIT.     GSCHIT.
486    
487     To retrieve the hit structure the call to the routine GPRHIT is done instead     To retrieve the hit structure the call to the routine GPRHIT is done instead
488     of a call to the GFHITS subroutine.     of a call to the GFHITS subroutine.
489    
490  25 February 2003, Bari  25 February 2003, Bari
491    
492  BUG found:  BUG found:
493     DCUTEAER, DCUTEAL, DCUTECE, DCUTECP, DCUTEFE, DCUTEG10C, DCUTEG10, DCUTEKAP,     DCUTEAER, DCUTEAL, DCUTECE, DCUTECP, DCUTEFE, DCUTEG10C, DCUTEG10, DCUTEKAP,
494     DCUTEN2G, DCUTEROA, DCUTESCIN, DCUTESICA, DCUTETRAD, DCUTEW2,     DCUTEN2G, DCUTEROA, DCUTESCIN, DCUTESICA, DCUTETRAD, DCUTEW2,
# Line 327  BUG found: Line 512  BUG found:
512     Updated the relative positions of the calorimeter planes. The corrected     Updated the relative positions of the calorimeter planes. The corrected
513     shifting are:     shifting are:
514    
515     first view: (Dxo,Dyo)=(0.10,0.05) cm     first view: (Dxo,Dyo)=(0.10,0.05) cm
516     second view: (Dxo,Dyo)=(-0.05,0.10) cm     second view: (Dxo,Dyo)=(-0.05,0.10) cm
517     third view: (Dxo,Dyo)=(-0.10,-0.05) cm     third view: (Dxo,Dyo)=(-0.10,-0.05) cm
518     fourth view: (Dxo,Dyo)=(0.05,-0.10) cm     fourth view: (Dxo,Dyo)=(0.05,-0.10) cm
519    
520  4 November 2002, Bari  4 November 2002, Bari
521    
522  CAS detectors distances modified  CAS detectors distances modified
523    
524     The distances between the CAS detectors have been modified based on the     The distances between the CAS detectors have been modified based on the
525     latest CAD drawings.     latest CAD drawings.
526    
527  2 November 2002, Bari  2 November 2002, Bari
528    
# Line 354  CALORIMETER geometry upgrade Line 539  CALORIMETER geometry upgrade
539     CALB and CALS. CALS is an aluminum box of dimensions: 48.4*48.4*21.278 cm^3,     CALB and CALS. CALS is an aluminum box of dimensions: 48.4*48.4*21.278 cm^3,
540     having side-walls 1 cm thick and a bottom of 1 mm. The real box is more     having side-walls 1 cm thick and a bottom of 1 mm. The real box is more
541     complicated and the configuration of the bottom should be upgraded if we want     complicated and the configuration of the bottom should be upgraded if we want
542     a reliable description of the event in the S4 scintillator.     a reliable description of the event in the S4 scintillator.
543    
544  22 October 2002, Stockholm  22 October 2002, Stockholm
545    
# Line 1018  CAS dimensions and positions modified Line 1203  CAS dimensions and positions modified
1203  CAT dimension modified  CAT dimension modified
1204     CAT dimensions modified after PAOLO simulation and Tom design. Here     CAT dimensions modified after PAOLO simulation and Tom design. Here
1205     are the new dimensions:     are the new dimensions:
1206          DATA CATB/22.05,21.05,0.55/      DATA CATB/22.05,21.05,0.55/
1207          DATA CATL/15.75,6.675,0.55/          DATA CATL/15.75,6.675,0.55/
1208          DATA CATT/6.3,14.375,0.55/          DATA CATT/6.3,14.375,0.55/
1209          DATA ZCAT/75.75/          DATA ZCAT/75.75/

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