Xun Chen, Lin Zhang, Defu Hou, “Running coupling constant at finite chemical potential and magnetic field from holography *”, Chinese Phys. C, 46:7 (2022), 073101
Carlos Hoyos, Niko Jokela, Aleksi Vuorinen, “Holographic approach to compact stars and their binary mergers”, Progress in Particle and Nuclear Physics, 126 (2022), 103972
Nathan G. Caldeira, Eduardo Folco Capossoli, Carlos A. D. Zarro, Henrique Boschi-Filho, “Fermionic and bosonic fluctuation-dissipation theorem from a deformed AdS holographic model at finite temperature and chemical potential”, Eur. Phys. J. C, 82:1 (2022)
Mohammad Ali-Akbari, Mahsa Lezgi, “Note on stability and holographic subregion complexity”, Eur. Phys. J. C, 82:2 (2022)
I. Ya. Aref'eva, “Theoretical studies of the formation and properties of quark-gluon matter under conditions of high baryon densities attainable at the NICA experimental complex”, ЭЧАЯ, 52:4 (2021), 512–521 ; I. Ya. Aref'eva, “Theoretical studies of the formation and properties of quark-gluon matter under conditions of high baryon densities attainable at the NICA experimental complex”, Phys. Part. Nucl., 52:4 (2021), 512–521
D. Dudal, A. Hajilou, S. Mahapatra, “A quenched 2-flavour Einstein–Maxwell–Dilaton gauge-gravity model”, Eur. Phys. J. A, 57:4 (2021)
Umut Gürsoy, Matti Järvinen, Govert Nijs, Juan F. Pedraza, “On the interplay between magnetic field and anisotropy in holographic QCD”, J. High Energ. Phys., 2021:3 (2021)
P. S. Slepov, “A way to improve the string tension dependence on temperature in holographic model”, ЭЧАЯ, 52:4 (2021), 560–563 [P. S. Slepov, “A way to improve the string tension dependence on temperature in holographic model”, Fiz. Elem. Chast. Atom. Yadra, 52:4 (2021), 560–563 ]
K. A. Rannu, “Holographic Model for Light Quarks in Anisotropic Background”, Phys. Part. Nuclei, 52:4 (2021), 555
Supragyan Priyadarshinee, Subhash Mahapatra, Indrani Banerjee, “Analytic topological hairy dyonic black holes and thermodynamics”, Phys. Rev. D, 104:8 (2021)