Inflationary non-Gaussianities in the most general second-order scalar-tensor theories

Inflationary non-Gaussianities in the most general second-order scalar-tensor theories

For very general scalar-field theories in which the equations of motion are at second order, we evaluate the three-point correlation function of primordial scalar perturbations generated during inflation. We show that the shape of non-Gaussianities is well approximated by the equilateral type. The e...

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Veröffentlicht in:Physical review. D, Particles and fields Particles and fields, 2011-10, Vol.84 (8), Article 083504
Hauptverfasser: De Felice, Antonio, Tsujikawa, Shinji
Format: Artikel
Sprache:eng
Schlagworte:
CORRELATION FUNCTIONS
COUPLING
DE SITTER SPACE
DIFFERENTIAL EQUATIONS
DISTURBANCES
EQUATIONS
EQUATIONS OF MOTION
FIELD THEORIES
FUNCTIONS
GRAVITATION
MATHEMATICAL SPACE
NONLINEAR PROBLEMS
PARTIAL DIFFERENTIAL EQUATIONS
PERTURBATION THEORY
PHYSICS OF ELEMENTARY PARTICLES AND FIELDS
SCALAR FIELDS
SPACE
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Zusammenfassung:For very general scalar-field theories in which the equations of motion are at second order, we evaluate the three-point correlation function of primordial scalar perturbations generated during inflation. We show that the shape of non-Gaussianities is well approximated by the equilateral type. The equilateral nonlinear parameter f{sub NL}{sup equil} is derived on the quasi-de Sitter background, where the slow-variation parameters are much smaller than unity. We apply our formula for f{sub NL}{sup equil} to a number of single-field models of inflation--such as k-inflation, k-inflation with Galileon terms, potential-driven Galileon inflation, nonminimal coupling models (including field-derivative coupling models), and Gauss-Bonnet gravity.
ISSN:1550-7998
0556-2821
1550-2368
1089-4918
DOI:10.1103/PhysRevD.84.083504