- Class ame_mass
- Create a caching and more intelligent search system for the table. The table is sorted by A and then N, so we could probably just copy the search routine from mnmsk_mass, which is sorted by Z and then N.
- Class ame_mass
- Use the atomic mass unit and other constants defined in the evaulation
- Class classical
- Write a calc_density_zerot() function for completeness?
- Class eff_fermion
- Use bracketing to speed up one-dimensional root finding.
- Class fermion
- Use hypot() and other more accurate functions for the analytic expressions for the zero temperature integrals. [Progress has been made, but there are probably other functions which may break down for small but finite masses and temperatures]
- Class fermion_T
- Create a Chebyshev approximation for inverting the the Fermi functions for massless_calc_density() functions?
- Global fermion_T::massless_pair_density (const double temper)
- This could be improved by including more terms in the expansions.
- Class mass_fit
- Convert to a real fit with errors and covariance, etc.
- Class nonrel_fermion
- This could be improved by performing a Chebyshev approximation (for example) to invert the density integral so that we don't need to use a solver.
- Class nuclear_mass
- Make the treatment of the electron binding energy contribution more consistent.
- Class nuclear_mass
- It might be useful to consider a fudge factor to ensure no problems with finite precision arithmetic when converting
double
to int
.
- Global nuclear_mass_info::parse_elstring (std::string ela, int &Z, int &N, int &A)
- Allow A to precede Z.
- Global nuclear_mass_info::parse_elstring (std::string ela, int &Z, int &N, int &A)
- Right now,
n4
is interpreted incorrectly as Nitrogen-4, rather than the tetraneutron.
- Class rel_fermion
- Allow the user to change the upper limit on the degenerate integration and the hard-coded value of 200 in the integrands.
- Class rel_fermion
- It appears this doesn't compute the uncertainty in the chemical potential or density with calc_density(). This could be fixed.
- Class simple_dist
- Make the vector constructor into a template so it accepts any type. Do the same for set_dist().
- Class sn_fermion
- This class will have difficulty with extremely degenerate or extremely non-degnerate systems. Fix this.
- Class sn_fermion
- Create a more intelligent method for dealing with bad initial guesses for the chemical potential in calc_density().
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