-
[1]
B. Pontecorvo, Soviet Journal of Experimental and Theoretical Physics 26, 984 (1968)
-
[2]
Z. Maki, M. Nakagawa, S. Sakata, Progress of Theoretical Physics 28, 870 (1962)
-
[3]
V. Bertone, R. Gauld, J. Rojo, JHEP 01, 217 (2019)
-
[4]
S. R. Mohanty, S. Ghosh, B. Kumar, Unstable Anisotropic Neutron Stars: Probing the Limits of Gravitational Collapse, arXiv e-prints (2023) arXiv: 2304.02439.
-
[5]
G. Lambiase, L. Mastrototaro, L. Visinelli, Astrophysical neutrino oscillations after pulsar timing array analyses, arXiv e-prints (2023) arXiv: 2306.16977.
-
[6]
Y. Fukuda, et al., Phys. Lett. B 433, 9 (1998)
-
[7]
Q. R. Ahmad, et al., Phys. Rev. Lett. 89, 011301 (2002)
-
[8]
Y. Fukuda, et al., Phys. Rev. Lett. 81, 1562 (1998)
-
[9]
D. G. Michael, et al., Phys. Rev. Lett. 97, 191801 (2006)
-
[10]
P. Adamson, et al., Phys. Rev. D 73, 072002 (2006)
-
[11]
H. Swami, K. Lochan, K. M. Patel, Phys. Rev. D 102, 024043 (2020)
-
[12]
H. Duan, G. M. Fuller, Y.-Z. Qian, Ann. Rev. Nucl. Part. Sci. 60, 569 (2010)
-
[13]
J. Wudka, Modern Physics Letters A 6, 3291 (1991)
-
[14]
C. Y. Cardall, G. M. Fuller, prd 55, 7960 (1997)
-
[15]
N. Fornengo, C. Giunti, C. W. Kim, J. Song, Nuclear Physics B Proceedings Supplements 70, 264 (1999)
-
[16]
N. Fornengo, C. Giunti, C. W. Kim, J. Song, prd 56, 1895 (1997)
-
[17]
S. Mandal, Nuclear Physics B 965, 115338 (2021)
-
[18]
H. Swami, European Physical Journal C 82, 974 (2022)
-
[19]
S. Abe, et al., Phys. Rev. Lett. 100, 221803 (2008)
-
[20]
T. Bhattacharya, S. Habib, E. Mottola, prd 59, 067301 (1999)
-
[21]
F. Hammad, P. Sadeghi, N. Fleury, Phys. Rev. D 107, 104015 (2023)
-
[22]
H. Chakrabarty, D. Borah, A. Abdujabbarov, D. Malafarina, B. Ahmedov, European Physical Journal C 82, 24 (2022)
-
[23]
P. Collas, D. Klein, The Dirac equation in general relativity, a guide for calculations, arXiv e-prints (2018) arXiv: 1809.02764.
-
[24]
S. Weinberg, Gravitation and Cosmology: Principles and Applications of the General Theory of Relativity, John Wiley and Sons, New York, 1972.
-
[25]
K. Konno, M. Kasai, General relativistic effects of gravity in quantum mechanics – a case of ultra-relativistic, spin 1/2 particles –, Progress of Theoretical Physics 100 (2006).
-
[26]
I. Furuoya, Progress of Theoretical Physics 58, 334 (1977)
-
[27]
H. Green, Dirac matrices, Nuclear Physics 7, 373 (1958)
-
[28]
N. J. Poplawski, Covariant differentiation of spinors for a general affine connection (2007).
-
[29]
L. Visinelli, General Relativity and Gravitation 47, 62 (2015)
-
[30]
J. W. Van Orden, S. Jeschonnek, J. Tjon, Phys. Rev. D 72, 054020 (2005)
-
[31]
L. Stodolsky, Gen. Rel. Grav. 11, 391 (1979)
-
[32]
J. Silk, L. Stodolsky, Physics Letters B 639, 14 (2006)
-
[33]
S. I. Godunov, G. S. Pastukhov, Phys. Atom. Nucl. 74, 302 (2011)
-
[34]
H. A. Weldon, Phys. Rev. D 63, 104010 (2001)
-
[35]
L. D. Landau, E. M. Lifshitz, The Classical Theory of Fields, Course of Theoretical Physics, Volume 2, Elsevier Butterworth-Heinemann, Oxford, 2004.
-
[36]
J. Wudka, Phys. Rev. D 64, 065009 (2001)
-
[37]
H. Maiwa, S. Naka, Neutrino oscillations in gravitational fields (2004).
-
[38]
M. Dvornikov, Phys. Rev. D 99, 116021 (2019)
-
[39]
M. Dvornikov, A. Studenikin, JHEP 09, 016 (2002)
-
[40]
E. K. Akhmedov, A. Wilhelm, Journal of High Energy Physics 2013, 165 (2013)
-
[41]
D. V. Ahluwalia, Gen. Rel. Grav. 29, 1491 (1997)
-
[42]
D. V. Ahluwalia, C. Burgard, Gen. Rel. Grav. 28, 1161 (1996)
-
[43]
L. Johns, H. Nagakura, G. M. Fuller, A. Burrows, Phys. Rev. D 101, 043009 (2020)
-
[44]
L. Buoninfante, G. Gaetano Luciano, L. Petruzziello, L. Smaldone, Neutrino decoherence and violation of the strong equivalence principle, arXiv e-prints (2023) arXiv: 2306.14023.
-
[45]
H. Chakrabarty, A. Chatrabhuti, D. Malafarina, B. Silasan, T. Tangphati, Effects of gravitational lensing by Kaluza-Klein black holes on neutrino oscillations, 2023 (2023) 018.
-
[46]
E. Aydiner, Anomalous Cyclic in the Neutrino Oscillations (2022).
-
[47]
P. Fisher, B. Kayser, K. S. McFarland, Annual Review of Nuclear and Particle Science 49, 481 (1999)
-
[48]
S. Bilenky, Nuclear Physics B 908, 2 (2016)
-
[49]
G. Lambiase, L. Mastrototaro, L. Visinelli, Gravitational waves and neutrino oscillations in Chern-Simons axion gravity, 2023 (2023) 011.
-
[50]
T. Johannsen, Phys. Rev. D 88, 044002 (2013)
-
[51]
C. Bambi, Black Holes: A Laboratory for Testing Strong Gravity, 2017.
-
[52]
A. B. Abdikamalov, D. Ayzenberg, C. Bambi, T. Dauser, J. A. Garcia, S. Nampalliwar, Astrophys. J. 878, 91 (2019)
-
[53]
A. B. Abdikamalov, D. Ayzenberg, C. Bambi, T. Dauser, J. A. Garcia, S. Nampalliwar, A. Tripathi, M. Zhou, Astrophys. J. 899, 80 (2020)
-
[54]
S. Chandrasekhar, The mathematical theory of black holes, 1983.