Frequency-dependent effects of gravitational lensing within plasma

Rogers, Adam

doi:10.1093/mnras/stv903

Cited by 132 publications

(126 citation statements)

References 62 publications

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“…The shadow of the sphericallysymmetric Ellis wormholes surrounded by plasma has been studied by Perlick et al (2015). The gravitational lensing and images of black hole in plasma environment has been recently studied in Bisnovatyi-Kogan and Tsupko (2010), Tsupko and Bisnovatyi-Kogan (2012), Morozova et al (2013), Perlick et al (2015), Er and Mao (2014), Atamurotov et al (2015), Rogers (2015). The transfer of radiation in an isotropic refractive, and dispersive medium using the Hamiltonian approach in a curved spacetime is studied in Bicak and Hadrava (1975) by applying the generalrelativistic kinetic theory.…”

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confidence: 99%

Shadow of rotating wormhole in plasma environment

Abdujabbarov

Juraev

Ahmedov

et al. 2016

Astrophys Space Sci

103

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The massless particle motion around rotating wormhole in the presence of plasma environment has been studied. It has been shown that the presence of the plasma decreases the inner radius of the circular orbits of photons around rotating wormhole. The shadow cast by rotating wormhole surrounded by inhomogeneous plasma with the radial power-law density has been explored. It has been shown that the shape and size of the wormhole shadow is distorted and changed depending on i) plasma parameters, ii) wormhole rotation and iii) inclination angle between observer plane and axis of rotation of wormhole. As an example we have considered an inverse radial distribution of the plasma density and different types of the wormhole solution.

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confidence: 99%

Shadow of rotating wormhole in plasma environment

Abdujabbarov

Juraev

Ahmedov

et al. 2016

Astrophys Space Sci

103

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“…As an example here we get the value for power h as 1 [22]. For this value we plot the radial dependence of the effective potential V eff of the radial motion of the photons defined as dr dσ…”

Section: Photon Motion Around the Black Hole In The Presence Of Pmentioning

confidence: 99%

“…We would like to underline that very recently, influence of a non-magnetized cold plasma with the radially dependent density to black hole shadow has been studied in [7] using the different alternate approach. In addition Rogers [22] has studied the photon motion around black hole surrounded by plasma.…”

Section: Introductionmentioning

confidence: 99%

Optical properties of black holes in the presence of a plasma: The shadow

2015

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We have studied photon motion around axially symmetric rotating Kerr black hole in the presence of plasma with radial power-law density. It is shown that in the presence of plasma the observed shape and size of shadow changes depending on i) plasma parameters, ii) black hole spin and iii) inclination angle between observer plane and axis of rotation of black hole. In order to extract pure effect of plasma influence on black hole image the particular case of the Schwarzschild black hole has also been investigated and it has been shown that i) the photon sphere around the spherical symmetric black hole is left unchanged under the plasma influence, ii) however the Schwarzschild black hole shadow size in plasma is reduced due to the refraction of the electromagnetic radiation in plasma environment of black hole. The study of the energy emission from the black hole in plasma shows that in the presence of plasma the maximal energy emission rate from the black hole decreases.PACS numbers: 95.30.Sf; 98.62.Sb

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“…Ref. 56. Moreover, in some extream case, e.g., bullet cluster, the temperature of the interstellar and intergalactic medium can be very high, as well as in the vicinity of black hole.…”

Section: Fig 2 Comparison Of Lensing By a Point Source In Vacuum (Lmentioning

confidence: 99%

“…56 The plasma distribution significantly affects the appearance of the compact object for a distant observer by changing the poriton of the surface that is visible as a function of frequency. This introduces a frequency-dependence to the morphology of the light curves and can significantly alter their features compared to the vacuum case.…”

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confidence: 99%

Recent developments in gravitational lensing: Theory and numerical modeling

Tsupko¹

2017

The Fourteenth Marcel Grossmann Meeting

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This article is a rapporteur review of selected talks presented at the session 'Gravitational lensing: theory and numerical modeling' of the Fourteenth Marcel Grossmann Meeting (MG14) as well as discussion of general ideas of related topics. We consider the influence of plasma on various gravitational lensing effects, including strong lensing systems and black hole shadows. We discuss recent developments in gravitational lensing beyond the small deflection regime, as well as some other aspects of this field. New results in modeling strong lensing systems and microlensing are presented.

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Frequency-dependent effects of gravitational lensing within plasma

Cited by 132 publications

References 62 publications

Shadow of rotating wormhole in plasma environment

Shadow of rotating wormhole in plasma environment

Optical properties of black holes in the presence of a plasma: The shadow

Recent developments in gravitational lensing: Theory and numerical modeling

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