Constraining graviton non-Gaussianity through the CMB bispectra

Tensor non-Gaussianities are a key ingredient to test the symmetries and the presence of higher spin fields during the inflationary epoch. Indeed, the shape of the three point correlator of the graviton is totally fixed by the symmetries of the de Sitter stage and, in the case of parity conservation...

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Detalles Bibliográficos
Autores principales: De Luca, Valerio, Franciolini, Gabriele, Kehagias, Alex, Riotto, Antonio, Shiraishi, Maresuke
Lenguaje:eng
Publicado: 2019
Materias:
hep-ph
Particle Physics - Phenomenology
gr-qc
General Relativity and Cosmology
astro-ph.CO
Astrophysics and Astronomy
Acceso en línea:https://dx.doi.org/10.1103/PhysRevD.100.063535
http://cds.cern.ch/record/2691258
Descripción
Sumario:Tensor non-Gaussianities are a key ingredient to test the symmetries and the presence of higher spin fields during the inflationary epoch. Indeed, the shape of the three point correlator of the graviton is totally fixed by the symmetries of the de Sitter stage and, in the case of parity conservation, gets contributions only from the ordinary gravity action plus a higher derivative term called the (Weyl)3 action. We discuss current and future bounds on the three point tensor contribution from the (Weyl)3 term using cosmic microwave background (CMB) bispectra. Our results indicate that forthcoming experiments, such as LiteBIRD, CMB-S4, and CORE, will detect the presence of the (Weyl)3 term if Mp4L4∼1017r-4, where L parametrizes the strength of the (Weyl)3 term and r is the tensor-to-scalar ratio, which corresponds to L≳3.2×105Mp-1, while the current upper limit is Mp4L4=(1.1±4.0)×1019r-4 (68% CL).

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