Observational Signatures and Non-Gaussianities ofGeneral Single Field Inflation | Zendy

Xingang Chen | Zendy; Min-xin Huang | Zendy; Shamit Kachru | Zendy; Gary Shiu | Zendy

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Observational Signatures and Non-Gaussianities ofGeneral Single Field Inflation

Author(s) -

Xingang Chen,

Min-xin Huang,

Shamit Kachru,

Gary Shiu

Publication year - 2006

Language(s) - English

Resource type - Reports

DOI - 10.2172/881956

Subject(s) - inflaton , observable , non gaussianity , physics , scalar field , scalar (mathematics) , inflation (cosmology) , statistical physics , field (mathematics) , parameter space , theoretical physics , classical mechanics , mathematical physics , mathematics , quantum mechanics , statistics , geometry , pure mathematics , cosmic microwave background , anisotropy

We perform a general study of primordial scalar non-Gaussianities in single field inflationary models. We consider models where the inflaton Lagrangian is an arbitrary function of the scalar field and its first derivative, and the sound speed is arbitrary. We find that under reasonable assumptions, the non-Gaussianity is completely determined by 5 parameters. In special limits of the parameter space, one finds distinctive ''shapes'' of the non-Gaussianity. In models with a small sound speed, several of these shapes would become potentially observable in the near future. Different limits of our formulae recover various previously known results

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