Alex N (2020)
Publication Type: Journal article
Publication year: 2020
Book Volume: 102
Journal Issue: 10
DOI: 10.1103/PhysRevD.102.104017
We present the second-order gravitational dynamics for a spacetime inhabited by matter fields which feature vacuum birefringence. The derivation follows a perturbative variant of the covariant constructive gravity program, ensuring diffeomorphism invariance of gravity and causal compatibility of matter theory and gravity. A subsequent spatiotemporal split of this theory reveals the presence of unphysical artifacts, which are cured by imposing constraints on the gravitational constants, reducing their number from ten to seven. Within this sector, we derive the gravitational radiation emitted by a binary system in circular motion. The system emits massless waves, which correspond to the radiation predicted by Einstein gravity, but also massive waves, which are generated only above a certain angular frequency threshold and are unknown to Einstein gravity. A gravitational-wave detector modeled as a sphere of freely falling test masses shows quantitatively and qualitatively new behavior under the influence of this radiation. The result is a prediction of gravitational self-coupling from first principles, demonstrating the predictive power of covariant constructive gravity for modified gravity research, especially in the era of gravitational-wave astronomy.
APA:
Alex, N. (2020). Gravitational radiation from birefringent matter dynamics. Physical Review D, 102(10). https://dx.doi.org/10.1103/PhysRevD.102.104017
MLA:
Alex, Nils. "Gravitational radiation from birefringent matter dynamics." Physical Review D 102.10 (2020).
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