Towards a direct measurement of the quantum-vacuum Lagrangian coupling coefficients using two counterpropagating super-intense laser pulses

Towards a direct measurement of the quantum-vacuum Lagrangian coupling coefficients using two counterpropagating super-intense laser pulses

In this paper we will show that photon–photon collision experiments using extreme lasers can provide measurable effects giving fundamental information about the essence of QED, its Lagrangian. A possible scenario with two counterpropagating ultra-intense lasers for an experiment to detect scattering...

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Bibliographic Details
Main Authors: Luis Roso, Roberto Lera, Smrithan Ravichandran, Andrew Longman, Calvin Z He, José Antonio Pérez-Hernández, Jon I Apiñaniz, Lucas D Smith, Robert Fedosejevs, Wendell T Hill III
Format: Article
Language:English
Published: IOP Publishing 2022-01-01
Series:New Journal of Physics
Subjects:
quantum vacuum
QED
photon-photon scattering
extreme laser intensity
quantum electrodynamics
Online Access:https://doi.org/10.1088/1367-2630/ac51a7
Description
Summary:In this paper we will show that photon–photon collision experiments using extreme lasers can provide measurable effects giving fundamental information about the essence of QED, its Lagrangian. A possible scenario with two counterpropagating ultra-intense lasers for an experiment to detect scattering between optical photons is analyzed. We discuss the importance of the pulse widths and waists, the best scenario for overlapping the beams and signal detection, as well as ways to distinguish the signal from the noise. This would need a high-precision measurement, with control of temporal jitter and noise. We conclude that such experiment is barely feasible at 10 ^23  W cm ^−2 and very promising at 10 ^24  W cm ^−2 .
ISSN:1367-2630

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