Precision tests of QED and non-standard models by searching photon-photon scattering in vacuum with high power lasers
DATE:
2009-11-10
UNIVERSAL IDENTIFIER: http://hdl.handle.net/11093/6965
EDITED VERSION: http://stacks.iop.org/1126-6708/2009/i=11/a=043?key=crossref.418e42e9716d6150b2e2d4ac0b945d66
UNESCO SUBJECT: 2212.02 Partículas Elementales
DOCUMENT TYPE: article
ABSTRACT
We study how to search for photon-photon scattering in vacuum at present petawatt laser facilities such as HERCULES, and test Quantum Electrodynamics and non-standard models like Born-Infeld theory or scenarios involving minicharged particles or axion-like bosons. First, we compute the phase shift that is produced when an ultra-intense laser beam crosses a low power beam, in the case of arbitrary polarisations. This result is then used in order to design a complete test of all the parameters appearing in the low energy effective photonic Lagrangian. In fact, we propose a set of experiments that can be performed at HERCULES, eventually allowing either to detect photon-photon scattering as due to new physics, or to set new limits on the relevant parameters, improving by several orders of magnitude the current constraints obtained recently by PVLAS collaboration. We also describe a multi-cross optical mechanism that can further enhance the sensitivity, enabling HERCULES to detect photon-photon scattering even at a rate as small as that predicted by QED. Finally, we discuss how these results can be improved at future exawatt facilities such as ELI, thus providing a new class of precision tests of the Standard Model and beyond.
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