AtomicRates Derived Type

type, public :: AtomicRates

Defines a n/m-resolved atomic cross section table


Inherited by

type~~atomicrates~~InheritedByGraph type~atomicrates AtomicRates type~atomictables AtomicTables type~atomictables->type~atomicrates H_H_cx_rate

Contents

Source Code


Components

TypeVisibilityAttributesNameInitial
integer, public :: nenergy =1

Number of beam energies/amu

real(kind=Float64), public :: logemin =0.d0

Log-10 minimum energy/amu

real(kind=Float64), public :: logemax =0.d0

Log-10 maximum energy/amu

integer, public :: ntemp =1

Number of target temperatures

real(kind=Float64), public :: logtmin =0.d0

Log-10 minimum temperature

real(kind=Float64), public :: logtmax =0.d0

Log-10 maximum temperature

integer, public :: n_max =nlevs

Number of initial atomic energy levels

integer, public :: m_max =nlevs

Number of final atomic energy levels

real(kind=Float64), public :: dlogE =0.d0

Log-10 energy spacing

real(kind=Float64), public :: dlogT =0.d0

Log-10 temperature spacing

real(kind=Float64), public :: minlog_rate =0.d0

Log-10 minimum reaction rate

real(kind=Float64), public, dimension(:,:,:,:), allocatable:: log_rate

Log-10 beam-target rates


Source Code

type AtomicRates
    !+ Defines a n/m-resolved atomic cross section table
    integer       :: nenergy = 1
        !+ Number of beam energies/amu
    real(Float64) :: logemin = 0.d0
        !+ Log-10 minimum energy/amu
    real(Float64) :: logemax = 0.d0
        !+ Log-10 maximum energy/amu
    integer       :: ntemp = 1
        !+ Number of target temperatures
    real(Float64) :: logtmin = 0.d0
        !+ Log-10 minimum temperature
    real(Float64) :: logtmax = 0.d0
        !+ Log-10 maximum temperature
    integer       :: n_max = nlevs
        !+ Number of initial atomic energy levels
    integer       :: m_max = nlevs
        !+ Number of final atomic energy levels
    real(Float64) :: dlogE = 0.d0
        !+ Log-10 energy spacing
    real(Float64) :: dlogT = 0.d0
        !+ Log-10 temperature spacing
    real(Float64) :: minlog_rate = 0.d0
        !+ Log-10 minimum reaction rate
    real(Float64), dimension(:,:,:,:), allocatable :: log_rate
        !+ Log-10 beam-target rates
end type AtomicRates