On the new direction in the theory of gravitational lensing
DOI:
https://doi.org/10.26577/rcph-2019-1-1115Keywords:
gravitational lenses, dark matter, dark matter haloAbstract
In this paper provides a brief overview of the state of the gravitational lensing problem. Its research, as the analysis of the literature shows, can be divided into three parts. The first is studying gravitational lenses within the solar system, the second is gravitational lenses on the scales of galaxies and their clusters, the third is the study of gravitational lenses on the scales of the Universe.
We note that further study of gravitational lensing on the scales of galaxies and their clusters should be considered taking into account the presence of dark matter halo, including its non-stationary nature.
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2 M. V. Sazhin Sovremennaja kosmologija, (Moscow: Editorial URSS, 2002), 240 (in Russ)
3 www.astronet.ru
4 P.V. Blioh and A.A. Minakov Gravitacionnye linzy, (Kiev: Nauka, 1989), 41. (in Russ)
5 Villumsen Jens Verner, Monthly Notices of the Royal Astronomical Soc.B28, 369–83, (1996).
6 D.B. Thomas, M. Bruni and D. Wands J. of Cosmology and Astroparticle Phys. 2015(9). 021 (2015).
7 Mir Emad Aghili, Brett Bolen and Luca Bombelli General Relativity and Gravitation, B49(1) (2014).
8 Mood M. Parsi, Firouzjaee Javad T. and Mansouri Reza Physical Review D., B.88(8), (2013).
9 A.F. Zaharov Gravitacionnye linzy i mikrolinzy (Moskva: Janus-K, 1997), 328. (in Russ)
10 P.V. Blioh and A.A. Minakov Gravitacionnye linzy (Moskva: Znanie,1990), 64. (in Russ)
11 Schaf Jacob, J. Modern Phys., B 6., P. 224 -238 (2015).
12 C. Cheung and D. Sanford, J. of Cosmology and Astroparticle Phys. B 02, (2014).
13 M. Jennifer Gaskins Contemporary Phys. P.32, (2016).
14 A.A. Antonov, J. of Modern Phys., B8., 567-582 (2017).
15 Marrodan Undagoitia Teresa, J. Phys. G43., 1, (2016).
16 Michael Klasen, Martin Pohl and Günter Sigl, Progress in Particle and Nuclear Phys. 74, (2015).
17 Auguste Meessen, J. of Modern Phys. B.8, 2 (2017)
18 Gianfranco Bertone and Dan Hooper, Mod. Phys. 90. (2018).
19 Xiao-Jun Bi, Peng-Fei Yin and Qiang Yuan, Front. Phys. B. 8(6), 794–827, (2013).
20 C. Jess Riedel, Phys. Rev. D 88 (2013).
21 Baudis Annalen der Physik. B. 528, 1-2, 74-83 (2015).
22 Grijalva-Castillo and Sergio Calcaneo-Roldan, APS March Meeting. 2018, abstract id.G60.010.
23 Nunez Darío, AIP Conference Proceedings. B. 1577, 1, 208-212 (2014).
24 F. Mayet, A.M. Green, J.B.R. Battat, J. Billard, N. Bozorgnia, G. B. Gelmini, P. Gondolo, B. J. Kavanagh, S. K. Lee, D. Loomba, J. Monroe, B. Morgan, C. A. J. O'Hare, A. H. G. Peter, N. S. Phan and S. E. Vensen, Phys. Reports. (2016).
25 L.M. Chechin, Nova Science Publishers, 429-470 (2013).
26 L.M. Chechin, Astronomicheskij zhurnal. 8, 784-789 (2010). (in Russ)
27 O.S. Ivanickaja, Lorencev bazis i gravitacionnye jeffekty v jejnshtejnovoj teorii tjagotenija, (Nauka i tehnika, 1979), 14-18. (in Russ)
28 L.M. Chechin and G.M. Avhunbaeva, Izvestie VUZov, 30-35 (2013). (in Russ)
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How to Cite
Chechin, L., & Kurmanov, E. (2019). On the new direction in the theory of gravitational lensing. Recent Contributions to Physics (Rec.Contr.Phys.), 68(1), 13–19. https://doi.org/10.26577/rcph-2019-1-1115
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Theoretical Physics. Nuclear and Elementary Particle Physics. Astrophysics
