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|
*DECK SENCAL
SUBROUTINE SENCAL(IPSENS,IPLIB,IPRINT,NR,NG,NI,NANIS,NAMISO,
> MELISO,MAT,DENISO,KEFF,P,D,NAMISC,ISOC,NIC)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Compute sensitivity profiles.
*
*Copyright:
* Copyright (C) 2011 Ecole Polytechnique de Montreal
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version
*
*Author(s): C. Laville, G. Marleau
*
*Parameters: input/output
* IPSENS LCM Sensitivity object address.
* IPLIB LCM Library object address.
* IPRINT print level.
* NR number of region in Tracking object.
* NG number of energy group in Library object.
* NI number of isotope/mixture.
* NANIS anisotropy order kept.
* NAMISO name of the isotope/mixture.
* MELISO mixture associated with the isotope/mixture.
* MAT mixture of each region.
* DENISO density of each mixtures.
* KEFF keff.
* P matrix calcution for sensitivity analysis.
* D weighting coefficient for sensitivity analysis.
* NAMISC independent isotopes names.
* ISOC independent isotope number associated with isotope/mixture.
* NIC number of independent isotopes names.
*
*-----------------------------------------------------------------------
*
USE GANLIB
IMPLICIT NONE
*----
* Parameters
*----
INTEGER IOUT,NS
CHARACTER NAMSBR*6
PARAMETER (IOUT=6,NS=9,NAMSBR='SENCAL')
*----
* Suboutine arguements
*----
TYPE(C_PTR) IPLIB
INTEGER IPSENS,IPRINT,NR,NG,NI,NANIS,NAMISO(3,NI),
> MELISO(NI),MAT(NR)
REAL DENISO(NI),KEFF,P(NR,NANIS,NG,NG),D
INTEGER NAMISC(2,NI),ISOC(NI),NIC
*----
* Local variables
*----
TYPE(C_PTR) KPISO
REAL ZERO
CHARACTER ISONAM*12,ISONAC*8,CL*2,HSMG*131
INTEGER ILENG,ITYLCM,IR,IS,IG,IP,JG,ISF,ISN,ISC,IL,II,
> ISOMEL,IIC,NGG
DOUBLE PRECISION DD,DDD,SENRIG
*----
* Allocatable arrays
*----
INTEGER, ALLOCATABLE, DIMENSION(:) :: IJJ,NJJ
INTEGER, ALLOCATABLE, DIMENSION(:,:) :: IDS
REAL, ALLOCATABLE, DIMENSION(:) :: NUSIGF,CHI,CAPT,SIGS,SCAT,
> NUBAR,NFTOT,SIGD,SIGA,SIGG,SIGP
DOUBLE PRECISION, ALLOCATABLE, DIMENSION(:) :: SENT,SENC
DOUBLE PRECISION, ALLOCATABLE, DIMENSION(:,:) :: SENG,SENTI
DOUBLE PRECISION, ALLOCATABLE, DIMENSION(:,:,:) :: SENRG,SENGI
TYPE(C_PTR), ALLOCATABLE, DIMENSION(:) :: IPISO
*----
* Scratch storage allocation
* NUSIGF Vector for nubar multiplied by the fission cross-section
* CHI Vector for fission spectra.
* SENRG Sensitivities for each region and group.
* SENG Sensitivities for each group integrated on each region.
* SENT Integrated sensitivities.
* CAPT Vector for capture cross-sections.
* SIGS Vector for scattering cross-sections.
* SCAT Vector for transfter sections.
* NUBAR Vector for nubar.
* NFTOT Vector for fission cross-sections.
* SIGD Vector for (n,d) cross-sections.
* SIGA Vector for (n,a) cross-sections.
* SIGG Vector for (n,g) cross-sections.
* SIGP Vector for (n,p) cross-sections.
* SENC Vector used for sensitivities to the fission spectra CHI.
* IJJ Highest energy group for which the scattering does no
* vanish.
* NJJ Number of energy group for which the scattering does not
* vanish.
* IDS Used to compute integrated isotope sensitivities.
* SENGI Sensitivities for integrated isotope for each group.
* SENTI Sensitivities for integrated isotope.
*----
ALLOCATE(IJJ(NG),NJJ(NG),IDS(NS,NIC))
ALLOCATE(CAPT(NG),NUSIGF(NG),CHI(NG),SIGS(NG),SCAT(NG*NG),
< NUBAR(NG),NFTOT(NG),SIGD(NG),SIGA(NG),SIGG(NG),SIGP(NG))
ALLOCATE(SENRG(NR,NG,NS),SENG(NG,NS),SENT(NS),SENC(NR),
< SENGI(NG,NS,NIC),SENTI(NS,NIC))
ALLOCATE(IPISO(NI))
*----
* Initialize the directory of the isotope/mixture
* in the library and initialize the SEN information
* support and the cross section support for the isotope
*----
ZERO=0.0
NGG=NG*NG
*----
* Loop over isotopes
*----
IDS(:NS,:NIC)=0
SENGI(:NG,:NS,:NIC)=0.0D0
SENTI(:NS,:NIC)=0.0D0
CALL LIBIPS(IPLIB,NI,IPISO)
DO II=1,NI
WRITE(ISONAM,'(3A4)') NAMISO(1,II),NAMISO(2,II),NAMISO(3,II)
KPISO=IPISO(II) ! set II-th isotope
IF(.NOT.C_ASSOCIATED(KPISO)) THEN
WRITE(HSMG,'(17HSENCAL: ISOTOPE '',A12,7H'' (ISO=,I8,5H) IS ,
1 30HNOT AVAILABLE IN THE MICROLIB.)') ISONAM,II
CALL XABORT(HSMG)
ENDIF
IIC=ABS(ISOC(II))
ISOMEL=MELISO(II)
DD=DBLE(DENISO(II)/D)
DDD=DBLE(DD/KEFF)
*----
* Process isotope
*----
SENRG(:NR,:NG,:NS)=0.0
SENG(:NG,:NS)=0.0
SENT(:NS)=0.0
SENC(:NR)=0.0
SIGD(:NG)=0.0
NUSIGF(:NG)=0.0
NUBAR(:NG)=0.0
NFTOT(:NG)=0.0
CHI(:NG)=0.0
SIGA(:NG)=0.0
SIGP(:NG)=0.0
SIGG(:NG)=0.0
CAPT(:NG)=0.0
SIGS(:NG)=0.0
SCAT(:NG*NG)=0.0
IJJ(:NG)=0
NJJ(:NG)=0
*----
* (n,g) sensitivity calculation
*----
IS=1
CALL LCMLEN(KPISO,'NG',ILENG,ITYLCM)
IF(ILENG.GT.0) THEN
CALL LCMGET(KPISO,'NG',SIGG)
DO IR=1,NR
IF(MAT(IR).EQ.ISOMEL) THEN
DO IG=1,NG
DO IL=0,NANIS-1
SENRG(IR,IG,IS)=SENRG(IR,IG,IS)-DD*
> DBLE(((2*IL)+1)*SIGG(IG)*P(IR,IL+1,IG,IG))
ENDDO
SENG(IG,IS)=SENG(IG,IS)+SENRG(IR,IG,IS)
SENT(IS)=SENT(IS)+SENRG(IR,IG,IS)
ENDDO
ENDIF
ENDDO
*----
* Add contribution to integrated isotope
*----
DO IG=1,NG
SENGI(IG,IS,IIC)=SENGI(IG,IS,IIC)+SENG(IG,IS)
ENDDO
SENTI(IS,IIC)=SENTI(IS,IIC)+SENT(IS)
IDS(IS,IIC)=IDS(IS,IIC)+1
*----
* Send to IPSENS
*----
WRITE(IPSENS,7000) ISONAM(1:8),'n,g ',102,-ISOMEL,ZERO
WRITE(IPSENS,7001) SENT(IS),ZERO,ZERO
WRITE(IPSENS,7002) (SENG(IG,IS),IG=1,NG)
*----
* Print information if required for (n,g)
*----
IF(IPRINT .GE. 5) THEN
WRITE(IOUT,6000) ' (n,g)',ISONAM,SENT(IS)
WRITE(IOUT,6001) (SENG(IG,IS),IG=1,NG)
ENDIF
ENDIF
*----
* (n,p) sensitivity calculation
*----
IS=2
CALL LCMLEN(KPISO,'NP',ILENG,ITYLCM)
IF(ILENG.GT.0) THEN
CALL LCMGET(KPISO,'NP',SIGP)
DO IR=1,NR
IF(MAT(IR).EQ.ISOMEL) THEN
DO IG=1,NG
DO IL=0,NANIS-1
SENRG(IR,IG,IS)=SENRG(IR,IG,IS)-DD*
> DBLE(((2*IL)+1)*SIGP(IG)*P(IR,IL+1,IG,IG))
ENDDO
SENG(IG,IS)=SENG(IG,IS)+SENRG(IR,IG,IS)
SENT(IS)=SENT(IS)+SENRG(IR,IG,IS)
ENDDO
ENDIF
ENDDO
*----
* Add contribution to integrated isotope
*----
DO IG=1,NG
SENGI(IG,IS,IIC)=SENGI(IG,IS,IIC)+SENG(IG,IS)
ENDDO
SENTI(IS,IIC)=SENTI(IS,IIC)+SENT(IS)
IDS(IS,IIC)=IDS(IS,IIC)+1
*----
* Send to IPSENS
*----
WRITE(IPSENS,7000) ISONAM(1:8),'n,p ',103,-ISOMEL,ZERO
WRITE(IPSENS,7001) SENT(IS),ZERO,ZERO
WRITE(IPSENS,7002) (SENG(IG,IS),IG=1,NG)
*----
* Print information if required for (n,p)
*----
IF(IPRINT .GE. 5) THEN
WRITE(IOUT,6000) ' (n,p)',ISONAM,SENT(IS)
WRITE(IOUT,6001) (SENG(IG,IS),IG=1,NG)
ENDIF
ENDIF
*----
* (n,d) sensitivity calculation
*----
IS=3
CALL LCMLEN(KPISO,'ND',ILENG,ITYLCM)
IF(ILENG.GT.0) THEN
CALL LCMGET(KPISO,'ND',SIGD)
DO IR=1,NR
IF(MAT(IR).EQ.ISOMEL) THEN
DO IG=1,NG
DO IL=0,NANIS-1
SENRG(IR,IG,IS)=SENRG(IR,IG,IS)-DD*
> DBLE(((2*IL)+1)*SIGD(IG)*P(IR,IL+1,IG,IG))
ENDDO
SENG(IG,IS)=SENG(IG,IS)+SENRG(IR,IG,IS)
SENT(IS)=SENT(IS)+SENRG(IR,IG,IS)
ENDDO
ENDIF
ENDDO
*----
* Add contribution to integrated isotope
*----
DO IG=1,NG
SENGI(IG,IS,IIC)=SENGI(IG,IS,IIC)+SENG(IG,IS)
ENDDO
SENTI(IS,IIC)=SENTI(IS,IIC)+SENT(IS)
IDS(IS,IIC)=IDS(IS,IIC)+1
*----
* Send to IPSENS
*----
WRITE(IPSENS,7000) ISONAM(1:8),'n,d ',104,-ISOMEL,ZERO
WRITE(IPSENS,7001) SENT(IS),ZERO,ZERO
WRITE(IPSENS,7002) (SENG(IG,IS),IG=1,NG)
*----
* Print information if required for (n,d)
*----
IF(IPRINT .GE. 5) THEN
WRITE(IOUT,6000) ' (n,d)',ISONAM,SENT(IS)
WRITE(IOUT,6001) (SENG(IG,IS),IG=1,NG)
ENDIF
ENDIF
*----
* (n,a) sensitivity calculation
*----
IS=4
CALL LCMLEN(KPISO,'NA',ILENG,ITYLCM)
IF(ILENG.GT.0) THEN
CALL LCMGET(KPISO,'NA',SIGA)
DO IR=1,NR
IF(MAT(IR).EQ.ISOMEL) THEN
DO IG=1,NG
DO IL=0,NANIS-1
SENRG(IR,IG,IS)=SENRG(IR,IG,IS)-DD*
> DBLE(((2*IL)+1)*SIGA(IG)*P(IR,IL+1,IG,IG))
ENDDO
SENG(IG,IS)=SENG(IG,IS)+SENRG(IR,IG,IS)
SENT(IS)=SENT(IS)+SENRG(IR,IG,IS)
ENDDO
ENDIF
ENDDO
*----
* Add contribution to integrated isotope
*----
DO IG=1,NG
SENGI(IG,IS,IIC)=SENGI(IG,IS,IIC)+SENG(IG,IS)
ENDDO
SENTI(IS,IIC)=SENTI(IS,IIC)+SENT(IS)
IDS(IS,IIC)=IDS(IS,IIC)+1
*----
* Send to IPSENS
*----
WRITE(IPSENS,7000) ISONAM(1:8),'n,a ',107,-ISOMEL,ZERO
WRITE(IPSENS,7001) SENT(IS),ZERO,ZERO
WRITE(IPSENS,7002) (SENG(IG,IS),IG=1,NG)
*----
* Print information if required for (n,a)
*----
IF(IPRINT .GE. 5) THEN
WRITE(IOUT,6000) ' (n,a)',ISONAM,SENT(IS)
WRITE(IOUT,6001) (SENG(IG,IS),IG=1,NG)
ENDIF
ENDIF
*----
* Capture sensitivity calculation
*----
IS=5
DO IG=1,NG
CAPT(IG)=SIGD(IG)+SIGA(IG)+SIGP(IG)+SIGG(IG)
ENDDO
DO IR=1,NR
IF(MAT(IR).EQ.ISOMEL) THEN
DO IG=1,NG
DO IL=0,NANIS-1
SENRG(IR,IG,IS)=SENRG(IR,IG,IS)-DD*
> DBLE(((2*IL)+1)*CAPT(IG)*P(IR,IL+1,IG,IG))
ENDDO
SENG(IG,IS)=SENG(IG,IS)+SENRG(IR,IG,IS)
SENT(IS)=SENT(IS)+SENRG(IR,IG,IS)
ENDDO
ENDIF
ENDDO
*----
* Add contribution to integrated isotope
*----
DO IG=1,NG
SENGI(IG,IS,IIC)=SENGI(IG,IS,IIC)+SENG(IG,IS)
ENDDO
SENTI(IS,IIC)=SENTI(IS,IIC)+SENT(IS)
IDS(IS,IIC)=IDS(IS,IIC)+1
*----
* Send to IPSENS
*----
WRITE(IPSENS,7000) ISONAM(1:8),'capture',101,-ISOMEL,ZERO
WRITE(IPSENS,7001) SENT(IS),ZERO,ZERO
WRITE(IPSENS,7002) (SENG(IG,IS),IG=1,NG)
*----
* Print information if required for capture
*----
IF(IPRINT .GE. 5) THEN
WRITE(IOUT,6000) 'capture',ISONAM,SENT(IS)
WRITE(IOUT,6001) (SENG(IG,IS),IG=1,NG)
ENDIF
*----
* Scattering sensitivity calculation
*----
IS=6
DO IL=1,NANIS
WRITE(CL,'(I2.2)') IL-1
CALL LCMLEN(KPISO,'SIGS'//CL,ILENG,ITYLCM)
IF(ILENG.GT.0) THEN
IF( IL .EQ. 1) THEN
CALL LCMGET(KPISO,'SIGS'//CL,SIGS)
ENDIF
CALL LCMGET(KPISO,'SCAT'//CL,SCAT)
CALL LCMGET(KPISO,'NJJS'//CL,NJJ)
CALL LCMGET(KPISO,'IJJS'//CL,IJJ)
*----
* Decompress scattering matrix
* SCAT(JG,IG) is from IG to JG
*----
DO IR=1,NR
IF(MAT(IR).EQ.ISOMEL) THEN
IP=1
DO JG=1,NG
DO IG=IJJ(JG),IJJ(JG)-NJJ(JG)+1,-1
IF(IG .EQ. JG) THEN
SENRIG=DBLE(SCAT(IP)*P(IR,IL,IG,JG))-
> DBLE(((2*IL)-1)*SIGS(IG)*P(IR,IL,IG,IG))
SENRG(IR,IG,IS)=SENRG(IR,IG,IS)+SENRIG
ELSE
SENRG(IR,IG,IS)=SENRG(IR,IG,IS)+
> DBLE(SCAT(IP)*P(IR,IL,IG,JG))
ENDIF
IP=IP+1
ENDDO
ENDDO
ENDIF
ENDDO
ENDIF
ENDDO
DO IR=1,NR
IF(MAT(IR).EQ.ISOMEL) THEN
DO IG=1,NG
SENRG(IR,IG,IS)=DD*SENRG(IR,IG,IS)
SENG(IG,IS)=SENG(IG,IS)+SENRG(IR,IG,IS)
SENT(IS)=SENT(IS)+SENRG(IR,IG,IS)
ENDDO
ENDIF
ENDDO
*----
* Add contribution to integrated isotope
*----
DO IG=1,NG
SENGI(IG,IS,IIC)=SENGI(IG,IS,IIC)+SENG(IG,IS)
ENDDO
SENTI(IS,IIC)=SENTI(IS,IIC)+SENT(IS)
IDS(IS,IIC)=IDS(IS,IIC)+1
*----
* Send to IPSENS
*----
WRITE(IPSENS,7000) ISONAM(1:8),'scatter',0,-ISOMEL,ZERO
WRITE(IPSENS,7001) SENT(IS),ZERO,ZERO
WRITE(IPSENS,7002) (SENG(IG,IS),IG=1,NG)
*----
* Print information if required for scattering
*----
IF(IPRINT .GE. 5) THEN
WRITE(IOUT,6000) 'scatter',ISONAM,SENT(IS)
WRITE(IOUT,6001) (SENG(IG,IS),IG=1,NG)
ENDIF
*----
* Check if the isotope is fissile and get the
* cross section informations
*----
CALL LCMLEN(KPISO,'NUSIGF',ILENG,ITYLCM)
IF(ILENG.GT.0) THEN
CALL LCMGET(KPISO,'NUSIGF',NUSIGF)
CALL LCMGET(KPISO,'CHI',CHI)
CALL LCMGET(KPISO,'NFTOT',NFTOT)
DO IG=1,NG
IF(NFTOT(IG).NE.0.0) THEN
NUBAR(IG)=NUSIGF(IG)/NFTOT(IG)
ENDIF
ENDDO
*----
* Fission sensitivity calculation if fissile isotope
* Fission (ISF), nubar (ISN) and chi (ISC)
*----
ISF=7
ISN=8
ISC=9
DO IR=1,NR
IF(MAT(IR).EQ.ISOMEL) THEN
DO IG=1,NG
DO IL=0,NANIS-1
* Fission
SENRG(IR,IG,ISF)=SENRG(IR,IG,ISF)-DD*
> DBLE(((2*IL)+1)*NFTOT(IG)*P(IR,IL+1,IG,IG))
ENDDO
DO JG=1,NG
* Fission
SENRG(IR,IG,ISF)=SENRG(IR,IG,ISF)+DDD*
> DBLE(NUSIGF(IG)*CHI(JG)*P(IR,1,IG,JG))
* Nubar
SENRG(IR,IG,ISN)=SENRG(IR,IG,ISN)+
> DBLE(NUSIGF(IG)*CHI(JG)*P(IR,1,IG,JG))
* Chi
SENRG(IR,IG,ISC)=SENRG(IR,IG,ISC)+
> DBLE(NUSIGF(JG)*CHI(IG)*P(IR,1,JG,IG))
ENDDO
* Fission
SENG(IG,ISF)=SENG(IG,ISF)+SENRG(IR,IG,ISF)
SENT(ISF)=SENT(ISF)+SENRG(IR,IG,ISF)
* Nubar
SENRG(IR,IG,ISN)=DDD*SENRG(IR,IG,ISN)
SENG(IG,ISN)=SENG(IG,ISN)+SENRG(IR,IG,ISN)
SENT(ISN)=SENT(ISN)+SENRG(IR,IG,ISN)
* Chi
SENRG(IR,IG,ISC)=DDD*SENRG(IR,IG,ISC)
SENC(IR)=SENC(IR)+SENRG(IR,IG,ISC)
ENDDO
ENDIF
ENDDO
*----
* Modification of sensitivty to Chi
*----
DO IR=1,NR
IF(MAT(IR).EQ.ISOMEL) THEN
DO IG=1,NG
SENRG(IR,IG,ISC)=SENRG(IR,IG,ISC)-
> DBLE(CHI(IG))*SENC(IR)
SENG(IG,ISC)=SENG(IG,ISC)+SENRG(IR,IG,ISC)
SENT(ISC)=SENT(ISC)+SENRG(IR,IG,ISC)
ENDDO
ENDIF
ENDDO
*----
* Add contribution to integrated isotope
*----
DO IG=1,NG
SENGI(IG,ISF,IIC)=SENGI(IG,ISF,IIC)+SENG(IG,ISF)
SENGI(IG,ISN,IIC)=SENGI(IG,ISN,IIC)+SENG(IG,ISN)
SENGI(IG,ISC,IIC)=SENGI(IG,ISC,IIC)+SENG(IG,ISC)
ENDDO
SENTI(ISF,IIC)=SENTI(ISF,IIC)+SENT(ISF)
SENTI(ISN,IIC)=SENTI(ISN,IIC)+SENT(ISN)
SENTI(ISC,IIC)=SENTI(ISC,IIC)+SENT(ISC)
IDS(ISF,IIC)=IDS(ISF,IIC)+1
IDS(ISN,IIC)=IDS(ISN,IIC)+1
IDS(ISC,IIC)=IDS(ISC,IIC)+1
*----
* Send to IPSENS
*----
WRITE(IPSENS,7000) ISONAM(1:8),'fission',18,-ISOMEL,ZERO
WRITE(IPSENS,7001) SENT(ISF),ZERO,ZERO
WRITE(IPSENS,7002) (SENG(IG,ISF),IG=1,NG)
WRITE(IPSENS,7000) ISONAM(1:8),'nubar ',452,-ISOMEL,ZERO
WRITE(IPSENS,7001) SENT(ISN),ZERO,ZERO
WRITE(IPSENS,7002) (SENG(IG,ISN),IG=1,NG)
WRITE(IPSENS,7000) ISONAM(1:8),'chi ',1018,-ISOMEL,ZERO
WRITE(IPSENS,7001) SENT(ISC),ZERO,ZERO
WRITE(IPSENS,7002) (SENG(IG,ISC),IG=1,NG)
*----
* Print information if required
*----
IF(IPRINT .GE. 5) THEN
WRITE(IOUT,6000) 'fission',ISONAM,SENT(ISF)
WRITE(IOUT,6001) (SENG(IG,ISF),IG=1,NG)
WRITE(IOUT,6000) ' nubar',ISONAM,SENT(ISN)
WRITE(IOUT,6001) (SENG(IG,ISN),IG=1,NG)
WRITE(IOUT,6000) ' chi',ISONAM,SENT(ISC)
WRITE(IOUT,6001) (SENG(IG,ISC),IG=1,NG)
ENDIF
*----
* End of the loop for fissile isotope
*----
ENDIF
*----
* End loop for isotopes
*----
ENDDO
*----
* Save integrated contributions
*----
DO IIC=1,NIC
WRITE(ISONAC,'(2A4)') NAMISC(1,IIC),NAMISC(2,IIC)
*----
* (n,g) sensitivity calculation
*----
DO IS=1,NS
IF(IDS(IS,IIC).GT.0) THEN
IF(IS .EQ.1) THEN
WRITE(IPSENS,7000) ISONAC,'n,g ', 102,0,ZERO
ELSE IF(IS .EQ.2) THEN
WRITE(IPSENS,7000) ISONAC,'n,p ', 103,0,ZERO
ELSE IF(IS .EQ.3) THEN
WRITE(IPSENS,7000) ISONAC,'n,d ', 104,0,ZERO
ELSE IF(IS .EQ.4) THEN
WRITE(IPSENS,7000) ISONAC,'n,a ', 107,0,ZERO
ELSE IF(IS .EQ.5) THEN
WRITE(IPSENS,7000) ISONAC,'capture', 101,0,ZERO
ELSE IF(IS .EQ.6) THEN
WRITE(IPSENS,7000) ISONAC,'scatter', 0,0,ZERO
ELSE IF(IS .EQ.7) THEN
WRITE(IPSENS,7000) ISONAC,'fission', 18,0,ZERO
ELSE IF(IS .EQ.8) THEN
WRITE(IPSENS,7000) ISONAC,'nubar ', 452,0,ZERO
ELSE IF(IS .EQ.9) THEN
WRITE(IPSENS,7000) ISONAC,'chi ',1018,0,ZERO
ENDIF
WRITE(IPSENS,7001) SENTI(IS,IIC),ZERO,ZERO
WRITE(IPSENS,7002) (SENGI(IG,IS,IIC),IG=1,NG)
*----
* Print information if required for (n,g)
*----
IF(IPRINT .GE. 5) THEN
IF(IS .EQ.1) THEN
WRITE(IOUT,6005) ' (n,g)',ISONAC,SENTI(IS,IIC)
ELSE IF(IS .EQ.2) THEN
WRITE(IOUT,6005) ' (n,p)',ISONAC,SENTI(IS,IIC)
ELSE IF(IS .EQ.3) THEN
WRITE(IOUT,6005) ' (n,d)',ISONAC,SENTI(IS,IIC)
ELSE IF(IS .EQ.4) THEN
WRITE(IOUT,6005) ' (n,a)',ISONAC,SENTI(IS,IIC)
ELSE IF(IS .EQ.5) THEN
WRITE(IOUT,6005) 'capture',ISONAC,SENTI(IS,IIC)
ELSE IF(IS .EQ.6) THEN
WRITE(IOUT,6005) 'scatter',ISONAC,SENTI(IS,IIC)
ELSE IF(IS .EQ.7) THEN
WRITE(IOUT,6005) 'fission',ISONAC,SENTI(ISF,IIC)
ELSE IF(IS .EQ.8) THEN
WRITE(IOUT,6005) ' nubar',ISONAC,SENTI(ISN,IIC)
ELSE IF(IS .EQ.9) THEN
WRITE(IOUT,6005) ' chi',ISONAC,SENTI(ISC,IIC)
ENDIF
WRITE(IOUT,6001) (SENGI(IG,IS,IIC),IG=1,NG)
ENDIF
ENDIF
ENDDO
*----
* End loop for isotopes
*----
ENDDO
*----
* Scratch storage deallocation
*----
DEALLOCATE(IPISO)
DEALLOCATE(SENTI,SENGI,SENC,SENT,SENG,SENRG)
DEALLOCATE(SIGP,SIGG,SIGA,SIGD,NFTOT,NUBAR,SCAT,SIGS,CHI,NUSIGF,
< CAPT)
DEALLOCATE(IDS,NJJ,IJJ)
RETURN
*----
* Formats
*----
6000 FORMAT('Name of the isotope/mixture: ',7X,
> 'Integrated sensitivity to :',
>A7/A12,44X,1P,E14.6/'Sensitivity profiles')
6001 FORMAT(1P,5E14.6)
6005 FORMAT('Name of the isotope/mixture: ',7X,
> 'Integrated sensitivity to :',
>A7/A8,48X,1P,E14.6/'Sensitivity profiles')
7000 FORMAT(A8,4X,1X,A7,' -0000',I7,I7,1P,E14.6)
7001 FORMAT(1P,3E14.6)
7002 FORMAT(1P,5E14.6)
END
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