H. Gumus And A. Bentabet, "CSDA range, stopping power and mean penetration depth energy relationships in some hydrocarbons and biologic materials for 10 eV to 100 MeV with the modified Rohrlich-Carlson model," APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING , vol.123, no.5, 2017
Gumus, H. And Bentabet, A. 2017. CSDA range, stopping power and mean penetration depth energy relationships in some hydrocarbons and biologic materials for 10 eV to 100 MeV with the modified Rohrlich-Carlson model. APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING , vol.123, no.5 .
Gumus, H., & Bentabet, A., (2017). CSDA range, stopping power and mean penetration depth energy relationships in some hydrocarbons and biologic materials for 10 eV to 100 MeV with the modified Rohrlich-Carlson model. APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING , vol.123, no.5.
Gumus, Hasan, And Abdelouahab Bentabet. "CSDA range, stopping power and mean penetration depth energy relationships in some hydrocarbons and biologic materials for 10 eV to 100 MeV with the modified Rohrlich-Carlson model," APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING , vol.123, no.5, 2017
Gumus, Hasan And Bentabet, Abdelouahab. "CSDA range, stopping power and mean penetration depth energy relationships in some hydrocarbons and biologic materials for 10 eV to 100 MeV with the modified Rohrlich-Carlson model." APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING , vol.123, no.5, 2017
Gumus, H. And Bentabet, A. (2017) . "CSDA range, stopping power and mean penetration depth energy relationships in some hydrocarbons and biologic materials for 10 eV to 100 MeV with the modified Rohrlich-Carlson model." APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING , vol.123, no.5.
@article{article, author={Hasan Gumus And author={Abdelouahab Bentabet}, title={CSDA range, stopping power and mean penetration depth energy relationships in some hydrocarbons and biologic materials for 10 eV to 100 MeV with the modified Rohrlich-Carlson model}, journal={APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING}, year=2017}