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Image of a regular phantom compact object and its luminosity under spherical accretions

Xin Qin, Songbai Chen, Jiliang Jing

2021Classical and Quantum Gravity49 citationsDOIOpen Access PDF

Abstract

Abstract We have studied the shadow and its luminosity for a static and regular phantom compact object under the static spherical accretion and the infalling spherical accretion, respectively. Comparing with the usual Schwarzschild black hole, the presence of phantom hair yields the larger black hole shadow and the darker image. In both spherical accretion models, with the increase of phantom parameter, the maximum luminosity occurred at photon ring and the brightness of the central region in the shadow decrease, but in the region far from the shadow, the luminosity of image slightly increases. The image of a phantom wormhole and its luminosity have similar behaviors. Moreover, as the phantom charge parameter α increases up to the critical value at where the compact object changes from black hole to wormhole, there exists a jump for the specific intensity, which also appears in the slowly rotating case. This implies that the phantom hair is imprinted on both the shadow radius and the intensity of the electromagnetic flux radiation around compacted object.

Topics & Concepts

PhysicsImaging phantomAccretion (finance)AstrophysicsLuminosityShadow (psychology)RADIUSSchwarzschild radiusCompact starBlack hole (networking)WormholeBrightnessAstronomyOpticsGalaxyNeutron starClassical mechanicsLink-state routing protocolRouting (electronic design automation)PsychologyComputer networkComputer scienceComputer securityPsychotherapistRouting protocolAstrophysical Phenomena and ObservationsPulsars and Gravitational Waves ResearchAstrophysics and Cosmic Phenomena
Image of a regular phantom compact object and its luminosity under spherical accretions | Litcius