The Chandrasekhar function for modeling photoelectron transport in solids
DOI10.1016/J.CPC.2018.07.005OpenAlexW2883342433WikidataQ99674325 ScholiaQ99674325MaRDI QIDQ6159551
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Publication date: 5 May 2023
Published in: Computer Physics Communications (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.cpc.2018.07.005
Chandrasekhar functiondouble exponential method of integrationnew optimized code for the \(H\)-functionphotoelectron transport in condensed matter
Computation of special functions and constants, construction of tables (65D20) Transport processes in time-dependent statistical mechanics (82C70) Software, source code, etc. for problems pertaining to statistical mechanics (82-04)
Cites Work
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- An effective algorithm for calculating the Chandrasekhar function
- Improved algorithm for calculating the Chandrasekhar function
- Some comments on the evaluation of the Chandrasekhar \(H\) function
- The Chandrasekhar function revisited
- Milne, a routine for the numerical solution of Milne's problem
- On the evaluation of \(H\) and \(X\) functions
- Quadrature formulas obtained by variable transformation and the DE-rule
- On the H-Functions for Isotropic Scattering
- The double-exponential transformation in numerical analysis
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