An exact analytic spectrum of relic gravitational waves in an accelerating universe
arXiv:astro-ph/0604456 · doi:10.1088/0264-9381/23/11/007
Abstract
An exact analytic calculation is presented for the spectrum of relic gravitational waves in the scenario of accelerating Universe $Ω_Î+Ω_m = 1$. The spectrum formula contains explicitly the parameters of acceleration, inflation, reheating, and the (tensor/scalar) ratio, so that it can be employed for a variety of cosmological models. We find that the spectrum depends on the behavior of the present accelerating expansion. The amplitude of gravitational waves for the model $Ω_Î=0.65$ is about $\sim 50 %$ greater than that of the model $Ω_Î=0.7$, an effect accessible to the designed sensitivities of LIGO and LISA. The spectrum sensitively depends on the inflationary models with $a(Ï) \propto |Ï|^{1+β}$, and a larger $β$ yields a flatter spectrum, producing more power. The current LIGO results rule out the inflationary models of $β\geq -1.8$. The LIGO with its design sensitivity and the LISA will also be able to test the model of $β=-1.9$. We also examine the constraints on the spectral energy density of relic gravitational waves. Both the LIGO bound and the nucleosynthesis bound point out that the model $β=-1.8$ is ruled out, but the model $β=-2.0$ is still alive. The exact analytic results also confirm the approximate spectrum and the numerical one in our previous work.
27 pages, 14figures, minor typos corrected