gpamela/gpcalor/readme.text

                       GEANT-CALOR Interface
                       =====================
                      C.Zeitnitz, T.A.Gabriel

Report problems to : Christian Zeitnitz, University of Arizona
            e-mail : Christian.Zeitnitz@Uni-Mainz.de
                 or  Christian.Zeitnitz@cern.ch

The interface consists of the following program parts:

- NMTC (Nucleon-Meson-Transport-Code) used for nucleons up to 3.5 GeV and
  charged pions up to 2.5 GeV. 
- Above the NMTC limit a Scaling Model is used up to 10 GeV.
- FLUKA takes over above 10GeV. All particle types not implemented in CALOR
  are given to FLUKA independent of the energy.
- Low energetic neutrons (Ekin < 20 MeV) are transported by the MICAP neutron
  code.

All electromagnetic interacting particles are transported by GEANT.

To use GCALOR in GEANT the following subroutines have to be changed:

      SUBROUTINE GUPHAD
C get interaction probability
C     CALL GPGHEI
C USE CALOR INSTEAD OF GHEISHA
      CALL CALSIG 
      RETURN

      SUBROUTINE GUHADR
C inelastic hadronic interaction
C     CALL GHEISH
C USE CALOR INSTEAD OF GHEISHA
      CALL GCALOR
      RETURN

The interface is expecting the data files in the CERN_ROOT directory, if
existing, otherwise in the current working directory. 

GCALOR has been tested on the following computers:
AXP, VAX under VMS
AXP, SGI, HP, SUN, IBM-R6000 under UNIX (AIX)
IBM 3090 under MVS
LINUX  Suse 6.2

Files :
        GCALOR.CAR      - CMZ file
                          For ALL unix machines SELECT UNIX in CMZ
                          PILOT file *calor
                          GEANT 3.16 sequences are needed  
        GCALOR_VAX.FOR  - FORTRAN source for VAX
        GCALOR_UNIX.FOR - FORTRAN source for UNIX
        XSNEUT.DAT      - Neutron cross-section file used by MICAP
        XSNEUT.DAT-GZ   - same, but compressed with GZIP

        CHETC.DAT       - Datafile used by HETC
       
        GCALOR.TAR     
        GCALOR.TAR      - tape archieve file. 
                          Contains all the above files, except xsneut.dat.

        GCALOR.TAR-GZ   - compressed (GZIP) tape archieve file. 
                          Contains all the above files, except xsneut.dat.
                          Use GUNZIP to uncompress this file.

        GCALOR.CONTENTS - content of TAR file


================================== N E W S ====================================
Nov 30, 2005 C.Zeitnitz
     Bug in XSECN1 removed, which caused a crash reading certain x-section 
     files.

Sept 4, 2001 C.Zeitnitz
     Some more changes (array parameters in subroutine calls) changed to
     comply with g77. 

May 16, 2000 C.Zeitnitz
     Some calls with inconsistent types changed in order to be compatible
     with the gnu compiler g77.

Nov 24, 1999 C.Zeitnitz
     Modification to XSECN2 to read in corrected secondary energy
     distribution in xsneut.dat (problem in preprocessing!)

Feb 11, 1997 C.Zeitnitz
     Subroutine CALSIG: Bug in number of isotopes per mixture removed.

Sep 27, 1996 C.Zeitnitz
     Subroutine MOXSEC modified in order to get correct size of bank MOX3.
     This caused sometimes problems when mixing the x-section.

Aug 16, 1996 C.Zeitnitz
     x-section file updated. See manual for new isotope list!

Aug 24, 1995 C.Zeitnitz
     MICAP routine Photon modified in order to generate low multiplicities
     differently. This ensures, that for example in a p(n,gamma)D reaction
     always a 2.2MeV gamma is generated

Aug 18, 1995 C.Zeitnitz
     Bug in MOXSEC removed ( size of MOX3 banks sometimes too small).
     2 changes in the x-section file:
       - total cross section for Iodine was wrong and has been replaced by
         ENDF/B-VI
       - Some photon cross section tables did not start at 1.E-5 eV but at the
         threshold of the reaction, which lead to the effect, that the 
         photon multiplicity for neutron energies below the threshold was 
         not 0, but could get very big!!

     So, get the new GCALOR version 1.04/05 AND the modified x-section file
     XSNEUT.DAT 
     CZ
 
Feb 22, 1995 C.Zeitnitz
     Version 1.04/04
     Bug in MICAP removed. Tritium now returned on the GEANT particle stack
     CZ

Feb 20, 1995 C.Zeitnitz
     Version 1.04/03
     Bug in TWOBOD, only a problem for Helium as target, removed and 
     CHETC modified. 
     CZ

Feb 13,1995 C.Zeitnitz
     Version 1.04/02
     Clash (at least for some compilers) between subroutine and common name
     MICFIL has been removed by renaming the common.
     CZ

Feb 9, 1995 C.Zeitnitz
     Version 1.04/01
     Due to technical problems it was necessary to change the method to 
     provide the additional x-section file. There is now as separate routine:
      CALL MICFIL('usr$root:[zeitnitz]helium.dat')  

Feb 2, 1995 C.Zeitnitz
     Version 1.04/00
     Modifications to MICAP in order to read in additional x-section files
     like HELIUM.DAT. The additional file has to be specified by a call to
     MICSET:  CALL MICSET(0,10,'usr$root:[zeitnitz]helium.dat')  
     This has to be done before GCALOR is called the first time !

Jan 20, 1995 C.Zeitnitz
     Version 1.03/08
     Minor changes in MICAP and GCALOR concerning the mechanism stored in LMEC.
 
Nov 24, 1994 C.Zeitnitz
     Version 1.03/07
     Some minor changes in MICAP. Now the input files CHETC.DAT and XSNEUT.DAT
     are expected in the current working directory and only if not found the
     version in the CERN library is used. LMEC is now set correctly in GCALOR.
     LMEC(1)=12 and LMEC(2) contains the process which occured. In addition 
     KCASE contains the name of the mechanism.

Nov 4, 1994 C.Zeitnitz
     New neutron cross-section file with some more elements/isotopes.
     (zirconium, gadolinium, cerium, bismuth)
     Second line in XSNEUT.DAT should read:
      Wed Nov  2 13:53:35 1994  

June 1, 1994 C.Zeitnitz
     Version 1.03/00. 
     New neutron cross-section file generated from ENDF/B-VI. Contains now
     65 isotopes. Natural composition is automatically mixed, if data are
     available. For example Xenon data include 7 different isotopes.
     An exception from this rule is uranium, for which it makes no sense to
     a natural composition, since only depleted uranium is used in HEP.
     The second line of XSNEUT.DAT should read:
       Fri May 27 10:19:12 1994

     The subroutines MORINI and MOXSEC changed considerably. All information
     about the availability of an isotopes has been moved to the x-section
     file and is no longer directly coded in MORINI. The output file calor.out
     had to be changed in order to allow more than one isotope per selected
     element. Additional comments about isotopes are printed in addition, e.g
     the I-127 secondary distributions are taken from Xe-128.
  
     The new x-section file can not be used by the older GCALOR versions and
     vice versa.
 
      ->   You have to get BOTH the x-section file AND the new code!
 
     Some new subroutines are needed now. 

February 16, 1994 C.Zeitnitz
     Missing common GCBANK added in CALINI.

February 3, 1994 C.Zeitnitz
     Version 1.02/05. Again a chane in the material list printed in 
     MOXSEC. The collision length for a 1 MeV neutron is printed for
     each isotope used.

February 2, 1994 C.Zeitnitz
     Version 1.02/04. The material table printed in CALOR.OUT has been
     Changed. MOXSEC and MORINI had to be modified for this. The table
     gives now the material name and the A,Z used in GEANT as well as
     in MICAP.

January 28, 1994 C.Zeitnitz
     Version 1.02/02. Subroutine name VERTIM changed to GCDATE in order to
     avoid a clash with a PAW subroutine.

January 26, 1994 C.Zeitnitz
     Version 1.02/01. The neutron cross-section file contains Cadmium, but
     it was not used in the program. Morini has been changed in order
     to do this.

January 25, 1994 C.Zeitnitz
     Version 1.02/00. This version works with GEANT 3.16 !!

November 18,1993 C.Zeitnitz
     A few necessary changes lead to version 1.01/16

November 15,1993 C.Zeitnitz
     The version 1.01/15 will NOT work with GEANT 3.16, because the new
     GEANT version needs to get the position of the secondaries. Thats not
     provided by GCALOR yet, but easy to fix. I will change it soon.

August 18,1993  C Zeitnitz
     There seems to be some interest in the recoil nucleus after the 
     interaction. An example for GUHADR, how to access these 
     informations, can be found in the file RECOIL.GUHADR. 
     This will work ONLY with  Version 1.01/15 or higher.

June 4, 1993    C.Zeitnitz
     Release 1.01 needs a new neutron cross-section file XSNEUT.DAT. The date
     in the file header has to be June 2, 1993 .
     Some bugs in the code have been removed, which effects the elastic
     scattering in MICAP, the hydrogen cross-sections used in NMTC and 
     calculation of the recoil nucleus momentum in MICAP.


March 3, 1993   C.Zeitnitz
     Due to a precision problem in GEANT, there has been a problem with very
     low energetic neutrons Ekin<1.E-8. The following fix in GLTRAC will be
     included in the next correction cradle for GEANT 3.15 and in GEANT 3.16.
     Please use the corrected version if you are interested in thermal 
     neutrons, or capture gammas etc. !!!

+REP,GTRAK,GLTRAC,60-64.
      P2 = DBLE(PVERT(1))**2+DBLE(PVERT(2))**2+DBLE(PVERT(3))**2
      IF (P2.EQ.0.D0) THEN
         VECT(7) = 0.
      ELSE
         VECT(7) = DSQRT(P2)
+REP,GTRAK,GLTRAC,94-95.
      GETOTD = DSQRT(P2+DBLE(AMASS)*DBLE(AMASS))
      GEKIND = GETOTD - DBLE(AMASS)


1	GEANT-CALOR Interface
2	=====================
3	C.Zeitnitz, T.A.Gabriel
4
5	Report problems to : Christian Zeitnitz, University of Arizona
6	e-mail : Christian.Zeitnitz@Uni-Mainz.de
7	or Christian.Zeitnitz@cern.ch
8
9	The interface consists of the following program parts:
10
11	- NMTC (Nucleon-Meson-Transport-Code) used for nucleons up to 3.5 GeV and
12	charged pions up to 2.5 GeV.
13	- Above the NMTC limit a Scaling Model is used up to 10 GeV.
14	- FLUKA takes over above 10GeV. All particle types not implemented in CALOR
15	are given to FLUKA independent of the energy.
16	- Low energetic neutrons (Ekin < 20 MeV) are transported by the MICAP neutron
17	code.
18
19	All electromagnetic interacting particles are transported by GEANT.
20
21	To use GCALOR in GEANT the following subroutines have to be changed:
22
23	SUBROUTINE GUPHAD
24	C get interaction probability
25	C CALL GPGHEI
26	C USE CALOR INSTEAD OF GHEISHA
27	CALL CALSIG
28	RETURN
29
30	SUBROUTINE GUHADR
31	C inelastic hadronic interaction
32	C CALL GHEISH
33	C USE CALOR INSTEAD OF GHEISHA
34	CALL GCALOR
35	RETURN
36
37	The interface is expecting the data files in the CERN_ROOT directory, if
38	existing, otherwise in the current working directory.
39
40	GCALOR has been tested on the following computers:
41	AXP, VAX under VMS
42	AXP, SGI, HP, SUN, IBM-R6000 under UNIX (AIX)
43	IBM 3090 under MVS
44	LINUX Suse 6.2
45
46	Files :
47	GCALOR.CAR - CMZ file
48	For ALL unix machines SELECT UNIX in CMZ
49	PILOT file *calor
50	GEANT 3.16 sequences are needed
51	GCALOR_VAX.FOR - FORTRAN source for VAX
52	GCALOR_UNIX.FOR - FORTRAN source for UNIX
53	XSNEUT.DAT - Neutron cross-section file used by MICAP
54	XSNEUT.DAT-GZ - same, but compressed with GZIP
55
56	CHETC.DAT - Datafile used by HETC
57
58	GCALOR.TAR
59	GCALOR.TAR - tape archieve file.
60	Contains all the above files, except xsneut.dat.
61
62	GCALOR.TAR-GZ - compressed (GZIP) tape archieve file.
63	Contains all the above files, except xsneut.dat.
64	Use GUNZIP to uncompress this file.
65
66	GCALOR.CONTENTS - content of TAR file
67
68
69	================================== N E W S ====================================
70	Nov 30, 2005 C.Zeitnitz
71	Bug in XSECN1 removed, which caused a crash reading certain x-section
72	files.
73
74	Sept 4, 2001 C.Zeitnitz
75	Some more changes (array parameters in subroutine calls) changed to
76	comply with g77.
77
78	May 16, 2000 C.Zeitnitz
79	Some calls with inconsistent types changed in order to be compatible
80	with the gnu compiler g77.
81
82	Nov 24, 1999 C.Zeitnitz
83	Modification to XSECN2 to read in corrected secondary energy
84	distribution in xsneut.dat (problem in preprocessing!)
85
86	Feb 11, 1997 C.Zeitnitz
87	Subroutine CALSIG: Bug in number of isotopes per mixture removed.
88
89	Sep 27, 1996 C.Zeitnitz
90	Subroutine MOXSEC modified in order to get correct size of bank MOX3.
91	This caused sometimes problems when mixing the x-section.
92
93	Aug 16, 1996 C.Zeitnitz
94	x-section file updated. See manual for new isotope list!
95
96	Aug 24, 1995 C.Zeitnitz
97	MICAP routine Photon modified in order to generate low multiplicities
98	differently. This ensures, that for example in a p(n,gamma)D reaction
99	always a 2.2MeV gamma is generated
100
101	Aug 18, 1995 C.Zeitnitz
102	Bug in MOXSEC removed ( size of MOX3 banks sometimes too small).
103	2 changes in the x-section file:
104	- total cross section for Iodine was wrong and has been replaced by
105	ENDF/B-VI
106	- Some photon cross section tables did not start at 1.E-5 eV but at the
107	threshold of the reaction, which lead to the effect, that the
108	photon multiplicity for neutron energies below the threshold was
109	not 0, but could get very big!!
110
111	So, get the new GCALOR version 1.04/05 AND the modified x-section file
112	XSNEUT.DAT
113	CZ
114
115	Feb 22, 1995 C.Zeitnitz
116	Version 1.04/04
117	Bug in MICAP removed. Tritium now returned on the GEANT particle stack
118	CZ
119
120	Feb 20, 1995 C.Zeitnitz
121	Version 1.04/03
122	Bug in TWOBOD, only a problem for Helium as target, removed and
123	CHETC modified.
124	CZ
125
126	Feb 13,1995 C.Zeitnitz
127	Version 1.04/02
128	Clash (at least for some compilers) between subroutine and common name
129	MICFIL has been removed by renaming the common.
130	CZ
131
132	Feb 9, 1995 C.Zeitnitz
133	Version 1.04/01
134	Due to technical problems it was necessary to change the method to
135	provide the additional x-section file. There is now as separate routine:
136	CALL MICFIL('usr$root:[zeitnitz]helium.dat')
137
138	Feb 2, 1995 C.Zeitnitz
139	Version 1.04/00
140	Modifications to MICAP in order to read in additional x-section files
141	like HELIUM.DAT. The additional file has to be specified by a call to
142	MICSET: CALL MICSET(0,10,'usr$root:[zeitnitz]helium.dat')
143	This has to be done before GCALOR is called the first time !
144
145	Jan 20, 1995 C.Zeitnitz
146	Version 1.03/08
147	Minor changes in MICAP and GCALOR concerning the mechanism stored in LMEC.
148
149	Nov 24, 1994 C.Zeitnitz
150	Version 1.03/07
151	Some minor changes in MICAP. Now the input files CHETC.DAT and XSNEUT.DAT
152	are expected in the current working directory and only if not found the
153	version in the CERN library is used. LMEC is now set correctly in GCALOR.
154	LMEC(1)=12 and LMEC(2) contains the process which occured. In addition
155	KCASE contains the name of the mechanism.
156
157	Nov 4, 1994 C.Zeitnitz
158	New neutron cross-section file with some more elements/isotopes.
159	(zirconium, gadolinium, cerium, bismuth)
160	Second line in XSNEUT.DAT should read:
161	Wed Nov 2 13:53:35 1994
162
163	June 1, 1994 C.Zeitnitz
164	Version 1.03/00.
165	New neutron cross-section file generated from ENDF/B-VI. Contains now
166	65 isotopes. Natural composition is automatically mixed, if data are
167	available. For example Xenon data include 7 different isotopes.
168	An exception from this rule is uranium, for which it makes no sense to
169	a natural composition, since only depleted uranium is used in HEP.
170	The second line of XSNEUT.DAT should read:
171	Fri May 27 10:19:12 1994
172
173	The subroutines MORINI and MOXSEC changed considerably. All information
174	about the availability of an isotopes has been moved to the x-section
175	file and is no longer directly coded in MORINI. The output file calor.out
176	had to be changed in order to allow more than one isotope per selected
177	element. Additional comments about isotopes are printed in addition, e.g
178	the I-127 secondary distributions are taken from Xe-128.
179
180	The new x-section file can not be used by the older GCALOR versions and
181	vice versa.
182
183	-> You have to get BOTH the x-section file AND the new code!
184
185	Some new subroutines are needed now.
186
187	February 16, 1994 C.Zeitnitz
188	Missing common GCBANK added in CALINI.
189
190	February 3, 1994 C.Zeitnitz
191	Version 1.02/05. Again a chane in the material list printed in
192	MOXSEC. The collision length for a 1 MeV neutron is printed for
193	each isotope used.
194
195	February 2, 1994 C.Zeitnitz
196	Version 1.02/04. The material table printed in CALOR.OUT has been
197	Changed. MOXSEC and MORINI had to be modified for this. The table
198	gives now the material name and the A,Z used in GEANT as well as
199	in MICAP.
200
201	January 28, 1994 C.Zeitnitz
202	Version 1.02/02. Subroutine name VERTIM changed to GCDATE in order to
203	avoid a clash with a PAW subroutine.
204
205	January 26, 1994 C.Zeitnitz
206	Version 1.02/01. The neutron cross-section file contains Cadmium, but
207	it was not used in the program. Morini has been changed in order
208	to do this.
209
210	January 25, 1994 C.Zeitnitz
211	Version 1.02/00. This version works with GEANT 3.16 !!
212
213	November 18,1993 C.Zeitnitz
214	A few necessary changes lead to version 1.01/16
215
216	November 15,1993 C.Zeitnitz
217	The version 1.01/15 will NOT work with GEANT 3.16, because the new
218	GEANT version needs to get the position of the secondaries. Thats not
219	provided by GCALOR yet, but easy to fix. I will change it soon.
220
221	August 18,1993 C Zeitnitz
222	There seems to be some interest in the recoil nucleus after the
223	interaction. An example for GUHADR, how to access these
224	informations, can be found in the file RECOIL.GUHADR.
225	This will work ONLY with Version 1.01/15 or higher.
226
227	June 4, 1993 C.Zeitnitz
228	Release 1.01 needs a new neutron cross-section file XSNEUT.DAT. The date
229	in the file header has to be June 2, 1993 .
230	Some bugs in the code have been removed, which effects the elastic
231	scattering in MICAP, the hydrogen cross-sections used in NMTC and
232	calculation of the recoil nucleus momentum in MICAP.
233
234
235	March 3, 1993 C.Zeitnitz
236	Due to a precision problem in GEANT, there has been a problem with very
237	low energetic neutrons Ekin<1.E-8. The following fix in GLTRAC will be
238	included in the next correction cradle for GEANT 3.15 and in GEANT 3.16.
239	Please use the corrected version if you are interested in thermal
240	neutrons, or capture gammas etc. !!!
241
242	+REP,GTRAK,GLTRAC,60-64.
243	P2 = DBLE(PVERT(1))2+DBLE(PVERT(2))2+DBLE(PVERT(3))**2
244	IF (P2.EQ.0.D0) THEN
245	VECT(7) = 0.
246	ELSE
247	VECT(7) = DSQRT(P2)
248	+REP,GTRAK,GLTRAC,94-95.
249	GETOTD = DSQRT(P2+DBLE(AMASS)*DBLE(AMASS))
250	GEKIND = GETOTD - DBLE(AMASS)
251
252
253