Constraints on the chaotic inflationary scenario with a nonminimally coupled "inflaton" field from the cosmic microwave background radiation anisotropy
Abstract
We investigate a possibility to restrict the chaotic inflationary scenario with "large" nonminimally coupled inflaton("phi") field considered by Fakir and Unruh by means of the observed CMBR anisotropy. We calculate the contributions of the long wavelength gravitational waves generated in the inflationary period to CMBR anisotropy quadrupole moment. We obtain the constraint lambda/(xi2) = 1.8 X 10(-8)/psii, where "lambda" is the self coupling, "xi" is the nonminimal coupling constant and "psii" means the initial value of psi = 8piG(phi2). Combining this with previously obtained constraint that 2.1 times squre root of lambda/(xi2) = dT/T = 1.1 X 10(-5), we conclude that the initial value has to be psii = 1.6 X 103. If the self-coupling has a reasonably values of order 10(-2), then xi = 104 and phii = 10(-1) times Planck mass.
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