Probing vacuum birefringence by phase-contrast Fourier imaging under
  fields of high-intensity lasers

A. Piazza Di; A. Yariv; A.E. Siegman; A.N. Luiten; B. King; B. Marx; B. Tollis De; B. Tollis De; C. Amsler; D. Habs; E. Zavattini; G.M. Shore; G.V. Dunne; J. Schwinger; J.M. Maldacena; J.W. Goodman; K. Homma; N.B. Narozhny; N.B. Narozhnyi; N.B. Norozhny; O. Aharony; R. Karplus; R. Schützhold; T. Heinzl; T. Tajima; V. Weisskopf; V.I. Ritus; V.N. Baier; W. Dittrich; W. Heisenberg

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Probing vacuum birefringence by phase-contrast Fourier imaging under fields of high-intensity lasers

Authors: A. Piazza Di
A. Yariv
A.E. Siegman
A.N. Luiten
B. King
B. Marx
B. Tollis De
B. Tollis De
C. Amsler
D. Habs
E. Zavattini
G.M. Shore
G.V. Dunne
J. Schwinger
J.M. Maldacena
J.W. Goodman
K. Homma
N.B. Narozhny
N.B. Narozhnyi
N.B. Norozhny
O. Aharony
R. Karplus
R. Schützhold
T. Heinzl
T. Tajima
V. Weisskopf
V.I. Ritus
V.N. Baier
W. Dittrich
W. Heisenberg
Publication date: 5 April 2011
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

In vacuum high-intensity lasers can cause photon-photon interaction via the process of virtual vacuum polarization which may be measured by the phase velocity shift of photons across intense fields. In the optical frequency domain, the photon-photon interaction is polarization-mediated described by the Euler-Heisenberg effective action. This theory predicts the vacuum birefringence or polarization dependence of the phase velocity shift arising from nonlinear properties in quantum electrodynamics (QED). We suggest a method to measure the vacuum birefringence under intense optical laser fields based on the absolute phase velocity shift by phase-contrast Fourier imaging. The method may serve for observing effects even beyond the QED vacuum polarization.Comment: 14 pages, 9 figures. Accepted by Applied Physics

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