Laser acceleration up to black hole values and B-meson decay

H. Hora; R. Castillo; T. Stait-Gardner; D. H.H. Hoffmann; G. H. Miley; P. Lalousis

doi:10.5962/p.361645

Laser acceleration up to black hole values and B-meson decay

H. Hora
, R. Castillo
, T. Stait-Gardner
, D. H.H. Hoffmann
, G. H. Miley
, P. Lalousis

University of New South Wales
Western Sydney University
Technische Universität Darmstadt
University of Illinois at Urbana-Champaign
Institute of Electronic Structure and Laser

科研成果: 期刊稿件 › 文章 › 同行评审

7 引用（Scopus）

摘要

Studies of laser produced pair production are followed up from early stages. Pair production by vacuum polarization was discussed with laser produced acceleration up to values similar to those at the surface of black holes leading to the discovery of a difference between Hawking and Unruh radiation. It was found that production of anti-hydrogen by this method is at least a million times more efficient than by present day accelerator technology. Another application of ultrahigh laser fields is to focus them into the collision area of the LHC (Large Hadron Collider) to study the details of the B-meson decay. This also may allow us to detect more details about CP violation of Bs mesons and possible signs of new particles on the horizon. Lasers with picosecond pulses and exawatts of power are now becoming available which will be interesting for studying ultra-intense shock waves in astrophysics and resulting nuclear reactions.

源语言	英语
页（从-至）	27-33
页数	7
期刊	Journal and Proceedings of the Royal Society of New South Wales
卷	144
期	1-2
DOI	https://doi.org/10.5962/p.361645
出版状态	已出版 - 2011
已对外发布	是

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abstract = "Studies of laser produced pair production are followed up from early stages. Pair production by vacuum polarization was discussed with laser produced acceleration up to values similar to those at the surface of black holes leading to the discovery of a difference between Hawking and Unruh radiation. It was found that production of anti-hydrogen by this method is at least a million times more efficient than by present day accelerator technology. Another application of ultrahigh laser fields is to focus them into the collision area of the LHC (Large Hadron Collider) to study the details of the B-meson decay. This also may allow us to detect more details about CP violation of Bs mesons and possible signs of new particles on the horizon. Lasers with picosecond pulses and exawatts of power are now becoming available which will be interesting for studying ultra-intense shock waves in astrophysics and resulting nuclear reactions.",

keywords = "Alternative laser-fusion, Efficient antihydrogen production by lasers, Pair production from vacuum, Ultrahigh laser intensities",

author = "H. Hora and R. Castillo and T. Stait-Gardner and Hoffmann, \{D. H.H.\} and Miley, \{G. H.\} and P. Lalousis",

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AU - Castillo, R.

AU - Stait-Gardner, T.

AU - Hoffmann, D. H.H.

AU - Miley, G. H.

AU - Lalousis, P.

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N2 - Studies of laser produced pair production are followed up from early stages. Pair production by vacuum polarization was discussed with laser produced acceleration up to values similar to those at the surface of black holes leading to the discovery of a difference between Hawking and Unruh radiation. It was found that production of anti-hydrogen by this method is at least a million times more efficient than by present day accelerator technology. Another application of ultrahigh laser fields is to focus them into the collision area of the LHC (Large Hadron Collider) to study the details of the B-meson decay. This also may allow us to detect more details about CP violation of Bs mesons and possible signs of new particles on the horizon. Lasers with picosecond pulses and exawatts of power are now becoming available which will be interesting for studying ultra-intense shock waves in astrophysics and resulting nuclear reactions.

AB - Studies of laser produced pair production are followed up from early stages. Pair production by vacuum polarization was discussed with laser produced acceleration up to values similar to those at the surface of black holes leading to the discovery of a difference between Hawking and Unruh radiation. It was found that production of anti-hydrogen by this method is at least a million times more efficient than by present day accelerator technology. Another application of ultrahigh laser fields is to focus them into the collision area of the LHC (Large Hadron Collider) to study the details of the B-meson decay. This also may allow us to detect more details about CP violation of Bs mesons and possible signs of new particles on the horizon. Lasers with picosecond pulses and exawatts of power are now becoming available which will be interesting for studying ultra-intense shock waves in astrophysics and resulting nuclear reactions.

KW - Alternative laser-fusion

KW - Efficient antihydrogen production by lasers

KW - Pair production from vacuum

KW - Ultrahigh laser intensities

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Laser acceleration up to black hole values and B-meson decay

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