Quantum Thermal Effect of Dirac Particles in a Non-uniformly Rectilinearly Accelerating Kinnersley Black Hole
WU Shuang-Qing, CAI Xu
Institute of Particle Physics, Huazhong Normal University, Wuhan 430079
Quantum Thermal Effect of Dirac Particles in a Non-uniformly Rectilinearly Accelerating Kinnersley Black Hole
WU Shuang-Qing;CAI Xu
Institute of Particle Physics, Huazhong Normal University, Wuhan 430079
关键词 :
97.60.Lf ,
04.70.Dy
Abstract : We study the Hawking radiation of Dirac particles in an arbitrarily rectilinearly accelerating Kinnersley black hol, using the generalized a tortoise coordinate transformationmethod. Both the location and the temperature of the event horizon depend on the time and polar angle. The Hawking thermal radiation spectrum of Dirac particles is also derived.
Key words :
97.60.Lf
04.70.Dy
出版日期: 2002-01-01
:
97.60.Lf
(Black holes)
04.70.Dy
(Quantum aspects of black holes, evaporation, thermodynamics)
引用本文:
WU Shuang-Qing;CAI Xu. Quantum Thermal Effect of Dirac Particles in a Non-uniformly Rectilinearly Accelerating Kinnersley Black Hole[J]. 中国物理快报, 2002, 19(1): 141-143.
链接本文:
https://cpl.iphy.ac.cn/CN/
或
https://cpl.iphy.ac.cn/CN/Y2002/V19/I1/141
[1]
YANG Shu-Zheng;CHEN De-You. A New Method to Study Hawking Radiation of Charged Particle from Stationary Axisymmetric Sen Black Hole
[2]
HU Ping-Hui; WANG Yong-Jiu. Sagnac Effect in the Kerr--Newman and Reissner--Nordström Fields
[3]
LI Xiang;ZHAO Zheng. Brick Wall Model and the Spectrum of a Schwarzschild Black Hole
[4]
REN Jun;ZHANG Jing-Yi;ZHAO Zheng. Tunnelling Effect and Hawking Radiation from a Vaidya Black Hole
[5]
ZENG Yi;Lü Jun-Li;WANG Yong-Jiu. Geodesics of Spherical Dilaton Spacetimes
[6]
ZHANG Jing-Yi;ZHAO Zheng. New Coordinates for the Evaporating Vaidya Black Hole
[7]
LIU Cheng-Zhou;. Holographic Entropy Bound of a Nonstationary Black Hole
[8]
LI Xiang; SHEN You-Gen. Note on the Constraint on Modified Energy--Momentum Relation
[9]
WANG Shuang;WU Shuang-Qing;XIE Fei;DAN Lin. The First Law of Thermodynamics of the (2+1)-Dimensional Banados--Teitelboim--Zanelli Black Holes and Kerr--de Sitter Spacetimes
[10]
XUE Li;;WANG Jian-Cheng;LU Ju-Fu. Radiatively Inefficient Accretion Flows with Outflow
[11]
CHEN Song-Bai;JING Ji-Liang. Quasinormal Modes of a Coupled Scalar Field in the Acoustic Black Hole Spacetime
[12]
LI Zi-Jing;GUI Yuan-Xing;ZHANG Su-Hong;YU Hong. Surface Gravity on the Horizon of η-ξ Spacetime
[13]
AN Xiao-Xia;WANG Ding-Xiong;GAN Zhao-Ming. Connection of Screw Instability with Electric Current in an Accretion Disc around a Black Hole
[14]
LEI Wei-Hua;LAN Xiao-Xia;WANG Ding-Xiong
. Effects of Screw Instability on Extracting Energy from a Rotating Black Hole
[15]
HAN Yi-Wen;LIU Shou-Yu. Entropy of Nonstatic Black Hole with the Internal Global Monopole and the Generalized Uncertainty Relation
2002, Vol. 19 
