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/AntibaryonWidth [ Modules ]

[ Top ] [ Modules ]

NAME

module AntibaryonWidth

PURPOSE

Includes the routines administrating the simultaneous annihilation and calculation of annihilation and total widths of an antibaryon.


AntibaryonWidth/decideOnAnnihilation [ Subroutines ]

[ Top ] [ AntibaryonWidth ] [ Subroutines ]

NAME

subroutine decideOnAnnihilation(teilchenReal,time,flag,widthAverageOut,widthTotalAverageOut, baryonDensityAverageOut,sigmaAnniAverageOut,vRelAverageOut, srtS_vacuumAverageOut)

PURPOSE

Decide whether to annihilate an antiproton at a given time step.

INPUTS

OUTPUT

  • logical:: flag ! if .true. --- do annihilation
  • real, optional :: widthAverageOut ! annihilation width of an antiproton ! averaged over all parallel ensembles
  • real, optional :: widthTotalAverageOut ! total width of an antiproton ! averaged over all parallel ensembles
  • real, optional :: baryonDensityAverageOut ! average density of baryons
  • real, optional :: sigmaAnniAverageOut ! average annihilation cross section
  • real, optional :: vRelAverageOut ! average relative velocity
  • real, optional :: srtS_vacuumAverageOut ! average vacuum c.m. energy

NOTES

Presently suitable for the real particles and for the parallel ensemble mode.


decideOnAnnihilation/gamma [ Subroutines ]

[ Top ] [ decideOnAnnihilation ] [ Subroutines ]

NAME

subroutine gamma(antiBaryon,time,width,widthTotal,baryonDensityOut,sigmaAnniOut,vRelOut,srtS_vacuumOut)

PURPOSE

Determine the annihilation width of an antibaryon.

INPUTS

  • type(particle) :: antiBaryon ! antibaryon particle
  • real :: time ! actual time step

OUTPUT

  • real :: width ! width w/r to annihilation (c/fm)
  • real :: widthTotal ! total width (c/fm)
  • real, optional :: baryonDensityOut ! density of baryons (fm**-3)
  • real, optional :: sigmaAnniOut ! annihilation cross section (mb)
  • real, optional :: vRelOut ! relative velocity (c)
  • real, optional :: srtS_vacuumOut ! c.m. energy (GeV) used in calculation of annihilation cross section


decideOnAnnihilation/ResetPosition [ Subroutines ]

[ Top ] [ decideOnAnnihilation ] [ Subroutines ]

NAME

subroutine ResetPosition

PURPOSE

  • calculate maxID, i.e. the number of finalState-particles
  • set position of finalState-particles: It loops over the FS particles vector and sets for the first FS-particle, which is baryon/meson as the first IS-particle, the spatial position as the first IS particle. Looping continues and the same is done for the next FS particle, which is of the same type as the secon IS particle. All other particles get as position the position of the interaction.


decideOnAnnihilation/gamma_exact [ Subroutines ]

[ Top ] [ decideOnAnnihilation ] [ Subroutines ]

NAME

subroutine gamma_exact(antiBaryon,time,width)

PURPOSE

Determine the annihilation width of an antibaryon.

INPUTS

  • type(particle), intent(in) :: antiBaryon ! antibaryon particle
  • real, intent(in) :: time ! actual time step

OUTPUT


AntibaryonWidth/DoAnnihilation [ Subroutines ]

[ Top ] [ AntibaryonWidth ] [ Subroutines ]

NAME

subroutine DoAnnihilation(teilchenReal,time)

PURPOSE

Looks for an antibaryon and annihilates it with the closest baryon.

INPUTS

OUTPUT

NOTES

Presently suitable for the real particles and for the parallel ensemble mode.