Strong field vacuum birefringence in plane wave pulses

被引：0

作者：

B. King

T. Heinzl

T. G. Blackburn

机构：

[1] University of Plymouth,Centre for Mathematical Sciences

[2] Deutsches Elektronen-Synchrotron DESY,Department of Physics

[3] University of Gothenburg,undefined

来源：

The European Physical Journal C | / 83卷

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摘要：

By combining an adiabatic approach based on a ‘locally monochromatic’ approximation with a local Hilbert transform, it is demonstrated how vacuum birefringence in the strong field regime can be calculated using a rate approach suitable for Monte Carlo simulation codes. Results for the flipping of the photon’s polarisation (helicity) are benchmarked with evaluation of exact expressions in a circularly (linearly) polarised plane wave of finite extent. For the circularly polarised case, the Heisenberg–Euler approach predicts a null result; an approximation similar to the ‘locally constant’ form is presented, which recovers the correct low-energy scaling. Example probabilities are given for typical experimental parameters.

引用

共 216 条

[1]

Karplus R(1950)undefined Phys. Rev. 80 380-undefined

[2]

Neuman M(1951)undefined Phys. Rev. 83 776-undefined

[3]

Karplus R(1964)undefined Il Nuovo Cimento 32 757-undefined

[4]

Neuman M(1971)undefined Il Nuovo Cimento 2A 733-undefined

[5]

De Tollis B(2022)undefined JHEP 01 050-undefined

[6]

Constantini V(2017)undefined Mon. Not. R. Astron. Soc. 465 492-undefined

[7]

De Tollis B(2023)undefined Rep. Prog. Phys. 86 246-undefined

[8]

Pistoni G(1935)undefined Naturwissenschaften 23 714-undefined

[9]

Ahmadiniaz N(1936)undefined Z. Phys. 98 371-undefined

[10]

Guzman VMB(1969)undefined Sov. Phys. JETP 28 961-undefined

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