Metadata only
Date
2020-10Type
- Journal Article
Abstract
With recent constraints on the propagation speed of gravitational waves, the class of scalar-tensor theories has significantly been reduced. We consider one of the surviving models still relevant for cosmology and investigate its radiative stability. The model contains operators with explicit breaking of the Galileon symmetry and we study whether they harm the re-organization of the effective field theory. Within the regime of validity we establish a non-renormalization theorem and show explicitly that the quantum corrections, to one-loop, do not detune the classical Lagrangian generating suppressed counterterms. This is striking since the non-renormalization theorem is established in the presence of a genuine Galileon symmetry breaking term. © 2020 IOP Publishing Show more
Publication status
publishedExternal links
Journal / series
Journal of Cosmology and Astroparticle PhysicsVolume
Pages / Article No.
Publisher
IOP PublishingSubject
dark energy theory; gravitational waves / theory; gravity; quantum gravity phenomenologyOrganisational unit
09662 - Heisenberg, Lavinia (ehemalig) / Heisenberg, Lavinia (former)
Funding
179740 - Multimessenger constraints of modified gravity (SNF)
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