Black hole - Moving mirror I: An exact correspondence

Paul R. Anderson; Michael R.R. Good; Charles R. Evans

doi:10.1142/9789813226609_0171

Black hole - Moving mirror I: An exact correspondence

Paul R. Anderson, Michael R.R. Good, Charles R. Evans

Department of Physics

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

6 Citations (Scopus)

Abstract

An exact correspondence is shown between a new moving mirror trajectory in (1+1)D and a spacetime in (1+1)D in which a black hole forms from the collapse of a null shell. It is shown that the Bogolubov coefficients between the “in” and “out” states are identical and the exact Bogolubov coefficients are displayed. Generalization to the (3+1)D black hole case is discussed.

Original language	English
Title of host publication	14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings
Editors	Massimo Bianchi, Robert T Jantzen, Remo Ruffini, Remo Ruffini
Publisher	World Scientific Publishing Co. Pte Ltd
Pages	1701-1704
Number of pages	4
ISBN (Electronic)	9789813226593
DOIs	https://doi.org/10.1142/9789813226609_0171
Publication status	Published - 2018
Event	14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories - Rome, Italy Duration: Jul 12 2015 → Jul 18 2015

Publication series

Name	14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings

Other

Other	14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories
Country	Italy
City	Rome
Period	7/12/15 → 7/18/15

ASJC Scopus subject areas

Nuclear and High Energy Physics
Astronomy and Astrophysics

Access to Document

10.1142/9789813226609_0171

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Anderson, P. R., Good, M. R. R., & Evans, C. R. (2018). Black hole - Moving mirror I: An exact correspondence. In M. Bianchi, R. T. Jantzen, R. Ruffini, & R. Ruffini (Eds.), 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings (pp. 1701-1704). (14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings). World Scientific Publishing Co. Pte Ltd. https://doi.org/10.1142/9789813226609_0171

Black hole - Moving mirror I : An exact correspondence. / Anderson, Paul R.; Good, Michael R.R.; Evans, Charles R.

14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings. ed. / Massimo Bianchi; Robert T Jantzen; Remo Ruffini; Remo Ruffini. World Scientific Publishing Co. Pte Ltd, 2018. p. 1701-1704 (14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Anderson, PR, Good, MRR & Evans, CR 2018, Black hole - Moving mirror I: An exact correspondence. in M Bianchi, RT Jantzen, R Ruffini & R Ruffini (eds), 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings. 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings, World Scientific Publishing Co. Pte Ltd, pp. 1701-1704, 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Rome, Italy, 7/12/15. https://doi.org/10.1142/9789813226609_0171

Anderson PR, Good MRR, Evans CR. Black hole - Moving mirror I: An exact correspondence. In Bianchi M, Jantzen RT, Ruffini R, Ruffini R, editors, 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings. World Scientific Publishing Co. Pte Ltd. 2018. p. 1701-1704. (14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings). https://doi.org/10.1142/9789813226609_0171

Anderson, Paul R. ; Good, Michael R.R. ; Evans, Charles R. / Black hole - Moving mirror I : An exact correspondence. 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings. editor / Massimo Bianchi ; Robert T Jantzen ; Remo Ruffini ; Remo Ruffini. World Scientific Publishing Co. Pte Ltd, 2018. pp. 1701-1704 (14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings).

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abstract = "An exact correspondence is shown between a new moving mirror trajectory in (1+1)D and a spacetime in (1+1)D in which a black hole forms from the collapse of a null shell. It is shown that the Bogolubov coefficients between the “in” and “out” states are identical and the exact Bogolubov coefficients are displayed. Generalization to the (3+1)D black hole case is discussed.",

author = "Anderson, {Paul R.} and Good, {Michael R.R.} and Evans, {Charles R.}",

note = "Funding Information: PRA would like to than Renaud Parentani, and PRA and CRE would like to thank Alessandro Fabbri and Amos Ori for helpful conversations. This work was supported in part by the National Science Foundation under Grant Nos. PHY-0856050, PHY-1308325, and PHY-1505875 to Wake Forest University, and PHY-1506182 to the University of North Carolina, Chapel Hill.; 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories ; Conference date: 12-07-2015 Through 18-07-2015",

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