O2scl_part Data Structures

Here are the data structures with brief descriptions:
ame_entryAtomic mass entry structure
ame_entry03_io_typeA support class for I/O of the 2003 AME data
ame_entry95_io_typeA support class for I/O of the 1995 AME data
ame_massMass formula from the Atomic Mass Evaluation (2005 and 1993)
bosonBoson class
classicalClassical particle class
deriv_bosonBoson with derivatives
deriv_classicalClassical particle with derivatives
deriv_fermionFermion with derivatives
deriv_partStorage for deriviatives wrt $ \mu $ and T
eff_bosonBoson class from fitting method
eff_fermionFermion class from fitting method
eff_quarkQuark class from fitting method
fermionFermion class
full_distFull distribution including all nuclei from a discrete mass formula
mass_fitFit a nuclear mass formula
mnms95_massMass formula from Moller, Nix, Myers and Swiatecki
mnms95_mass_entryMass formula entry structure for Moller, et al
mnms95_mass_expThe experimental values from Moller, Nix, Myers and Swiatecki
nonrel_fermionNonrelativistic fermion class
nuclear_distA distribution of nuclei
nuclear_dist::iteratorAn iterator for the nuclear distribution
nuclear_massNuclear mass formula base
nuclear_mass::string_less_thanString comparison operator for element_table
nuclear_mass_fitFittable mass formula
nucleusA simple nucleus class
partParticle base class
part_iocSetup I/O for particle classes
quarkQuark base
rel_bosonEquation of state for a relativistic boson
rel_fermionEquation of state for a relativistic fermion
semi_empirical_massSemi-empirical mass formula
simple_distA simple nuclear distribution given a range in A and Z
sn_classicalEquation of state for a classical particle with derivatives
sn_fermionEquation of state for a relativistic fermion
sn_nr_fermionEquation of state for a nonrelativistic fermion
thermoA class for the thermodynamical variables (energy density, pressure, entropy density)

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