Some of the computer programs for stopping power:
For all ions and targets, including compounds using the Bragg rule and also an option for compound correction.
Reference: The stopping and range of ions in matter, J. F. Ziegler, M. D. Ziegler, Biersack, Nucl. Instr. and Meth. B 268 (2010) 1818–1823.
For Li to Ar ions in different targets.
Reference: Empirical stopping power tables for ions from 3Li to 18Ar in solids and gases, H. Paul and A. Schinner, Atomic Data and Nuclear Data Tables 85 (2003) 377.
For all ions and targets, atoms and compounds.
CasP is the Convolution approximation for swift Particles, by Grande and Schiwietz.
Reference: G. Schiwietz and P. L. Grande , Nucl. Instr. and Meth. B 273, 1-5 (2012); F. Matias et al, J. Phys. B 50, 185201 (2017).
For ions Z=1 to 92 in targets Z=1 to 92.
DPass code is the "Binary theory of electronic stopping", by Sigmund and Schinner.
Reference: Expanded PASS stopping code, A. Schinner and P. Sigmund, Nucl. Instr. and Meth. B 460, 19-26 (2019).
For ions Z=1 to 92 in atomic targets.
Reference: Electronic Stopping Power Neural Network, code built on the IAEA
stopping power database. Part I: atomic targets, F. Bivort Haiek, A. M. P. Mendez, C. C. Montanari, D. M. Mitnik, J. Appl. Phys. 132, 245103 (2022); doi: 10.1063/5.0130875.
For protons and alphas in different targets.
Reference: M. J. Berger, NIST, Report NISTIR 4992 (1992).
For protons and heavy ions, and specific kinetic energies from 1 keV/u to 450 GeV/u.
Reference: H. Geissel, C. Scheidenberger, Nucl. Instr. and Meth. B136 (1998) 114.