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1 | * |
| 2 | * $Id$ |
| 3 | * |
| 4 | * $Log$ |
| 5 | * Revision 1.1.1.1 1995/10/24 10:21:55 cernlib |
| 6 | * Geant |
| 7 | * |
| 8 | * |
| 9 | #include "geant321/pilot.h" |
| 10 | *CMZ : 3.21/02 29/03/94 15.41.48 by S.Giani |
| 11 | *-- Author : |
| 12 | SUBROUTINE CEVAP1(EOLD,E,Q,ATAR,CB,EX) |
| 13 | C THIS ROUTINE SAMPLES AN EXIT ENERGY FROM AN |
| 14 | C EVAPORATION SPECTRUM FOR AN (N,N-PRIME X) REACTION |
| 15 | #include "geant321/minput.inc" |
| 16 | SAVE |
| 17 | C CONVERT THE COULOMB BARRIER (CB) TO UNITS OF EV |
| 18 | CB=CB*1.00E+06 |
| 19 | C CALCULATE THE MAXIMUM ENERGY AVAILABLE |
| 20 | CBI=CB |
| 21 | EMAX=EOLD+Q-CB-E |
| 22 | IF(EMAX.GT.0.0)GO TO 10 |
| 23 | CB=0.5*CB |
| 24 | EMAX=EOLD+Q-CB-E |
| 25 | IF(EMAX.GT.0.0)GO TO 10 |
| 26 | CB=0.0 |
| 27 | EMAX=EOLD+Q-CB-E |
| 28 | IF(EMAX.LE.0.0)EMAX=1.0E+00 |
| 29 | C CALCULATE THE NUCLEAR TEMPERATURE (THETA) |
| 30 | 10 THETA=4.0161E+03*(SQRT(EMAX)/(ATAR**0.8333333)) |
| 31 | C SELECT THE EXIT ENERGY FROM AN EVAPORATION SPECTRUM |
| 32 | ITRY = 0 |
| 33 | 20 R1=FLTRNF(0) |
| 34 | R2=FLTRNF(0) |
| 35 | W=-LOG(R1*R2) |
| 36 | EX=THETA*W |
| 37 | IF(EX.LE.EMAX)RETURN |
| 38 | C RESAMPLE 75% OF THE TIME IF EX IS GREATER THAN EMAX |
| 39 | R=FLTRNF(0) |
| 40 | ITRY = ITRY + 1 |
| 41 | IF(R.LE.0.75.AND.ITRY.LT.5)GO TO 20 |
| 42 | #if defined(CERNLIB_MDEBUG) |
| 43 | WRITE(IOUT,10000)EX,EMAX |
| 44 | 10000 FORMAT(' MICAP: WARNING-EX,EMAX=',2PE13.5,' IN ROUTINE EVAP1') |
| 45 | #endif |
| 46 | EX=EMAX |
| 47 | RETURN |
| 48 | END |
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