Influence of Lorentz Invariation Violation on Arbitrary Spin Fermion Tunneling Radiation in the Vaidya-Bonner Space-Time

Influence of Lorentz Invariation Violation on Arbitrary Spin Fermion Tunneling Radiation in the Vaidya-Bonner Space-Time

In the space-time of the nonstationary spherical symmetry Vaidya-Bonner black hole, an accurate modification of Hawking tunneling radiation for fermions with arbitrary spin is researched. Considering a light dispersion relationship derived from string theory, quantum gravitational theory, and the Ra...

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Main Authors: Jie Zhang, Zhie Liu, Bei Sha, Xia Tan, Yuzhen Liu, Shuzheng Yang
Format: Article
Language:English
Published: Hindawi Limited 2020-01-01
Series:Advances in High Energy Physics
Online Access:http://dx.doi.org/10.1155/2020/2742091
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spelling doaj-69819133ce1648aaa3502abb78c3b71d2020-11-25T03:15:39ZengHindawi LimitedAdvances in High Energy Physics1687-73571687-73652020-01-01202010.1155/2020/27420912742091Influence of Lorentz Invariation Violation on Arbitrary Spin Fermion Tunneling Radiation in the Vaidya-Bonner Space-TimeJie Zhang0Zhie Liu1Bei Sha2Xia Tan3Yuzhen Liu4Shuzheng Yang5College of Physics and Electronic Engineering, Qilu Normal University, Jinan 250300, ChinaCollege of Physics and Electronic Engineering, Qilu Normal University, Jinan 250300, ChinaCollege of Physics and Electronic Engineering, Qilu Normal University, Jinan 250300, ChinaCollege of Physics and Electronic Engineering, Qilu Normal University, Jinan 250300, ChinaCollege of Physics and Electronic Engineering, Qilu Normal University, Jinan 250300, ChinaCollege of Physics and Space Science, China West Normal University, Nanchong 637009, ChinaIn the space-time of the nonstationary spherical symmetry Vaidya-Bonner black hole, an accurate modification of Hawking tunneling radiation for fermions with arbitrary spin is researched. Considering a light dispersion relationship derived from string theory, quantum gravitational theory, and the Rarita-Schwinger equation in the nonstationary spherical symmetry space-time, we derive an accurately modified dynamic equation for fermions with arbitrary spin. By solving the equation, the modified tunneling rate of fermions with arbitrary spin, Hawking temperature, and entropy at the event horizon of the Vaidya-Bonner black hole are presented. We find that the Hawking temperature will increase, but the entropy will decrease compared with the case without the Lorentz Invariation Violation modification.http://dx.doi.org/10.1155/2020/2742091
collection DOAJ
language English
format Article
sources DOAJ
author Jie Zhang
Zhie Liu
Bei Sha
Xia Tan
Yuzhen Liu
Shuzheng Yang
spellingShingle Jie Zhang
Zhie Liu
Bei Sha
Xia Tan
Yuzhen Liu
Shuzheng Yang
Influence of Lorentz Invariation Violation on Arbitrary Spin Fermion Tunneling Radiation in the Vaidya-Bonner Space-Time
Advances in High Energy Physics
author_facet Jie Zhang
Zhie Liu
Bei Sha
Xia Tan
Yuzhen Liu
Shuzheng Yang
author_sort Jie Zhang
title Influence of Lorentz Invariation Violation on Arbitrary Spin Fermion Tunneling Radiation in the Vaidya-Bonner Space-Time
title_short Influence of Lorentz Invariation Violation on Arbitrary Spin Fermion Tunneling Radiation in the Vaidya-Bonner Space-Time
title_full Influence of Lorentz Invariation Violation on Arbitrary Spin Fermion Tunneling Radiation in the Vaidya-Bonner Space-Time
title_fullStr Influence of Lorentz Invariation Violation on Arbitrary Spin Fermion Tunneling Radiation in the Vaidya-Bonner Space-Time
title_full_unstemmed Influence of Lorentz Invariation Violation on Arbitrary Spin Fermion Tunneling Radiation in the Vaidya-Bonner Space-Time
title_sort influence of lorentz invariation violation on arbitrary spin fermion tunneling radiation in the vaidya-bonner space-time
publisher Hindawi Limited
series Advances in High Energy Physics
issn 1687-7357
1687-7365
publishDate 2020-01-01
description In the space-time of the nonstationary spherical symmetry Vaidya-Bonner black hole, an accurate modification of Hawking tunneling radiation for fermions with arbitrary spin is researched. Considering a light dispersion relationship derived from string theory, quantum gravitational theory, and the Rarita-Schwinger equation in the nonstationary spherical symmetry space-time, we derive an accurately modified dynamic equation for fermions with arbitrary spin. By solving the equation, the modified tunneling rate of fermions with arbitrary spin, Hawking temperature, and entropy at the event horizon of the Vaidya-Bonner black hole are presented. We find that the Hawking temperature will increase, but the entropy will decrease compared with the case without the Lorentz Invariation Violation modification.
url http://dx.doi.org/10.1155/2020/2742091
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