Scalar and fermion field interactions with a gravitational wave
Jul 17, 201921 pages
Published in:
- Class.Quant.Grav. 37 (2020) 10, 105001
- Published: Apr 17, 2020
e-Print:
- 1907.07531 [gr-qc]
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Abstract: (IOP)
Given that gravitational waves are the future probes of the Universe, it is important to test various physical effects of these on matter. This article explores the first-order perturbation, caused by a planar gravitational wave, on massless scalar and chiral fermions. We find a new propagating mode for the perturbed fields with a new dispersion relation by solving inhomogeneous differential equations. We also discuss the massive scalar field, and find interesting effects due to the gravitational wave. Our results have physical implications for early Universe cosmology and also for ground-based observations, where the new mode might be able to help in the gravitational waves’ detection on Earth.Note:
- 25 pages, 2 figures
- scalar particle: massless
- fermion: chiral
- gravitation
- gravitational radiation
- cosmological model
- perturbation theory
References(31)
Figures(15)
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