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# Publications

- M. Modarres, A. Tafrihi, A. Hatami, "The LOCV method versus the fermion (hypernetted) chain approximations using the Bethe homework problem", Nuclear Physics A, 879 (2012) 1-13.
- M. Modarres, A. Tafrihi, A. Hatami, "The LOCV method in comparison with the FC and the FHNC approximations for the Bethe homework problem", Annual physics conference of Iran, Birjand University, Birjand, Iran, 2013, pp. 221.
- M. Modarres, A. Tafrihi, "The nucleonic matter LOCV calculations in a periodic box versus the FHNC method", Nuclear Physics A, 916 (2013) 126-148.
- M. Modarres, A. Tafrihi, "The LOCV nucleonic matter correlation and distribution functions versus the FHNC/SOC and the Monte Carlo calculations", Nuclear Physics A, 941 (2015) 212-240.
- A. Tafrihi, M. Modarres, "The PBLOCV method in comparison with the PBFHNC approach for the Bethe and the Av'
_{8} potentials", Annual physics conference of Iran, Ferdowsi University of Mashhad, Mashhad, Iran, 2015, pp. 2254.
- A. Tafrihi, M. Modarres, "Comparative study of the LOCV and the FHNC methods for the nucleonic matter problem", 2016 J. Phys.: Conf. Ser. 702 012015.
- A. Tafrihi, M. Modarres, "The LOCV tensor and spin-orbit correlation functions in the coupled channel of neutron matter", 23rd IPM Physics Spring Conference, Institute for Research in Fundemental Sciences (IPM), Tehran, Iran, May 18-19, 2016, 19.
- A. Tafrihi, M. Modarres, "The nucleonic matter spin-orbit and tensor correlations in the LOCV framework", Nuclear Physics A, 958 (2017) 25-37.
- A. Tafrihi, "The LOCV asymmetric nuclear matter two-body density distributions versus those of FHNC", Annals of Physics, 392 (2018) 12-38.
- A. Tafrihi, "The three-body cluster energy for the isospin asymmetric nucleonic matter in the LOCV formalism", Annals of Physics, 409C (2019) 167928.
- H. Bahrdo, A. Tafrihi, "The LOCV asymmetric nucleonic matter in the periodic boxes", European Physical Journal A, 56 (2020) 27.
- A. Tafrihi, "The short-range correlation of asymmetric
*nucleonic* matter at finite temperature: The *LOCV* approach", Physics Letters B, 816 (2021) 136192.
- M. Dadkhah, A. Tafrihi, "The LOCV finite nucleonic matter three-body cluster energy in the periodic boxes", Annals of Physics, 429 (2021) 168489.