“Muhammad Goharipour”
Tel: +98 21 22809150
Fax: +98 21 22809148
Email:

IPM Positions |
||
Non Resident Researcher, School of Particles and Accelerator
(2023 - 2024 ) |
||
Past IPM Positions |
||
Resident Researcher, School of Particles and Accelerator
(2021 - 2023) Post-Doctoral Research Fellow, School of Particles and Accelerator (2018 - 2021) Resident Researcher, School of Particles and Accelerator (2017 - 2018) |
||
Research Interests |
||
Parton Distribution functions(PDFs) Nuclear PDFs Diffractive PDFs Intrinsic Quarks |
||
Present Research Project at IPM |
||
Study of Hadrons Structure and Extracting Parton Distribution Functions(PDFs) | ||
Related Papers |
1. | M. Goharipour, F. Irani, H. Hashamipour and K. Azizi The charge and magnetic radii of the nucleons from the generalized parton distributions (Submitted) [abstract] arXive.org link: 2408.01783 [ abs, src, ps, others], cited by Code: IPM/P.A-803 |
2. | The MMGPDs Collaboration. , M. Goharipour, H. Hashamipour, F. Irani and K. Azizi Impact of JLab data on the determination of GPDs at zero skewness and new insights from transition form factors $ N\rightarrow \Delta $ Phys. Rev. D 109 (2024), [abstract] arXive.org link: 2403.19384 [ abs, src, ps, others], cited by Code: IPM/P.A-796 |
3. | F. Irani, M. Goharipour, H. Hashamipour and K. Azizi Impact of recent MINERvA measurement of the antineutrino-proton scattering cross section on the generalized parton distributions Phys. Rev. D 108 (2023), 14 [abstract] arXive.org link: 2306.13060 [ abs, src, ps, others], cited by Code: IPM/P.A-781 |
4. | H. Hashamipour, M. Goharipour, K. Azizi and S.V. Goloskokov Generalized parton distributions at zero skewness Phys. Rev. D 107 (2023), 32 [abstract] arXive.org link: 2211.09522 [ abs, src, ps, others], cited by Code: IPM/P.A-764 |
5. | H. Hashamipour, M. Goharipour, K. Azizi and S.V. Goloskokov Determination of the generalized parton distributions through the analysis of the world electron scattering data considering two-photon exchange corrections Phys. Rev. D 105 (2022), [abstract] arXive.org link: 2111.02030 [ abs, src, ps, others], cited by Code: IPM/P.A-724 |
6. | M. Soleymaninia, M. Goharipour, H. Khanpour and H. Spiesberger Simultaneous extraction of fragmentation functions of light charged hadrons with mass corrections Phys. Rev. D 103 (2021), [abstract] Code: IPM/P.A-678 |
7. | H. Hashamipour, M. Goharipour and S. S. Gousheh Determination of generalized parton distributions through a simultaneous analysis of axial form factor and wide-angle Compton scattering data Phys. Rev. D 102 (2020), [abstract] arXive.org link: 2006.05760 [ abs, src, ps, others], cited by Code: IPM/P.A-658 |
8. | M. Goharipour and S. Rostami Implementation of target mass corrections and higher-twist effects in the xFitter framework Phys. Rev. D 101 (2020), 17 [abstract] arXive.org link: 2004.03403 [ abs, src, ps, others], cited by Code: IPM/P.A-617 |
9. | A. Maktoubian, H. Mehraban, H. Khanpour and M. Goharipour Role of higher twist effects in diffractive DIS and determination of diffractive parton distribution functions Phys. Rev. D 100 (2019), [abstract] Code: IPM/P.A-594 |
10. | H. Hashamipour, M. Goharipour and S. S. Gousheh Nucleon axial form factor from generalized parton distributions Phys. Rev. D 100 (2019), [abstract] arXive.org link: 1903.05542 [hep-ph] [ abs, src, ps, others], cited by Code: IPM/P.A-557 |
11. | M. Goharipour and S. Rostami Probing nuclear modifications of parton distribution functions through the isolated prompt photon production at energies available at the CERN Large Hadron Collider Phys. Rev. C 99 (2019), [abstract] Code: IPM/P.A-546 |
12. | M. Soleymaninia , M. Goharipour and H. Khanpour Impact of unidentified light charged hadron data on the determination of pion fragmentation functions Phys. Rev. D 99 (2019), [abstract] arXive.org link: 1901.01120 [hep-ph] [ abs, src, ps, others], cited by Code: IPM/P.A-534 |
13. | M. Soleymaninia, M. Goharipour and H. Khanpour First QCD analysis of charged hadron fragmentation functions and their uncertainties at next-to-next-to-leading order Phys. Rev. D 98 (2018), [abstract] arXive.org link: arXiv:1805.04847 [hep-ph] [ abs, src, ps, others], cited by Code: IPM/P.A-502 |
14. | M. Goharipour Study of the s−―s asymmetry in the proton Nucl. Phys. A 973 (2018), 60-78 [abstract] Code: IPM/P.A-500 |
15. | M. Goharipour, H. Khanpour and V. Guzey First global next-to-leading order determination of diffractive parton distribution functions and their uncertainties within the xFitter framework Eur. Phys. J. C 78 (2018), [abstract] Code: IPM/P.A-492 |
16. | H. Khanpour, M. Goharipour and V. Guzey Effects of next-to-leading order DGLAP evolution on generalized parton distributions of the proton and deeply virtual Compton scattering at high energy Eur. Phys. J. C 78 (2018), [abstract] Code: IPM/P.A-479 |
[Back]
|