* * $Id$ * * $Log$ * Revision 1.1.1.1 1995/10/24 10:20:06 cernlib * Geant * * #include "geant321/pilot.h" *CMZ : 3.21/02 29/03/94 15.41.45 by S.Giani *-- Author : *=== zeroin ===========================================================* * SUBROUTINE FKZERO #include "geant321/dblprc.inc" #include "geant321/dimpar.inc" #include "geant321/iounit.inc" * *======================================================================* * * * Created by Alfredo Ferrari on 11 july 1990 INFN - Milan * * * * Last change on 23-apr-93 by Alfredo Ferrari * * * * This routine zeroes a few arrays, and initialize some data * * * *======================================================================* * #include "geant321/paprop.inc" #include "geant321/part2.inc" * * +-------------------------------------------------------------------* * | Set the "effective" masses for particles DO 8000 I = 1, IDMAX8 * | +----------------------------------------------------------------* * | | Baryons: "effective" mass = actual one - baryon * | | number x proton mass (final state of any * | | baryon) IF ( IIBAR (I) .GT. 0 ) THEN AAMDSC (I) = AAM (I) - IIBAR (I) * AAM (1) * | | * | +----------------------------------------------------------------* * | | Antibaryons: "effective mass" = actual mass + * | | |baryon number| x proton mass ELSE IF ( IIBAR (I) .LT. 0 ) THEN AAMDSC (I) = AAM (I) - IIBAR (I) * AAM (1) * | | * | +----------------------------------------------------------------* * | | Mesons: "effective" mass = actual mass ELSE AAMDSC (I) = AAM (I) END IF * | | * | +----------------------------------------------------------------* 8000 CONTINUE * | * +-------------------------------------------------------------------* * Electron: "effective" mass = 0 AAMDSC (3) = ZERZER * Positron: "effective" mass = 2 x mass AAMDSC (4) = 2.D+00 * AAM (4) * Neutron: "effective" mass = 0 (it should be taken into account the * neutrino energy when decaying) AAMDSC (8) = ZERZER * Muon+: "effective" mass = muon mass + positron mass AAMDSC (10) = AAM (10) + AAM (4) * Muon-: "effective" mass = muon mass - electron mass * (final stable state) AAMDSC (11) = AAM (11) - AAM (3) * Tau+: "effective" mass = Tau mass + positron mass AAMDSC (131) = AAM (131) + AAM (4) * Tau-: "effective" mass = Tau mass - electron mass * (final stable state) AAMDSC (132) = AAM (132) - AAM (3) * +-------------------------------------------------------------------* * | Set the "effective" masses for particles in Paprop DO 8500 I = 1, NALLWP KP = IPTOKP (I) * | +----------------------------------------------------------------* * | | IF ( KP .GT. 0 ) THEN AMDISC (I) = AAMDSC (KP) AM (I) = AAM (KP) ICHRGE (I) = IICH (KP) THALF (I) = TAU (KP) * | | * | +----------------------------------------------------------------* * | | ELSE IF ( I .NE. 30 ) THEN AMDISC (I) = ZERZER AM (I) = ZERZER ICHRGE (I) = 0 THALF (I) = ZERZER * | | * | +----------------------------------------------------------------* * | | ELSE AMDISC (I) = AAMDSC (1) AM (I) = AAM (1) ICHRGE (I) = IICH (1) THALF (I) = TAU (1) END IF * | | * | +----------------------------------------------------------------* * | +----------------------------------------------------------------* * | | Set the particle spin (in 1/2 units) * | | If the particle is a hadron : * | | mesons --> 0 spin * | | baryons,antibaryons --> 1/2 spin * | | otherwise : * | | e-/+,mu-/+,vu,vubar --> 1/2 spin * | | photons --> 1 spin IF ( LHADRO (I) .AND. IIBAR (KP) .EQ. 0 ) THEN JSPINP (I) = 0 * | | * | +----------------------------------------------------------------* * | | ELSE IF ( I .EQ. 7 ) THEN JSPINP (I) = 2 ELSE JSPINP (I) = 1 END IF END IF * | | * | +----------------------------------------------------------------* 8500 CONTINUE * | * +-------------------------------------------------------------------* *=== end of subroutine zeroin =========================================* RETURN END