Unitary paradox of cosmological perturbations
Abstract
If we interpret the Bekenstein-Hawking entropy of the Hubble horizon as thermodynamic entropy, then the entanglement entropy of the superhorizon modes of curvature perturbation entangled with the subhorizon modes will exceed the Bekenstein-Hawking bound at some point; we call this the unitary paradox of cosmological perturbations by analogy with black hole. In order to avoid a fine-tuned problem, the paradox must occur during the inflationary era at the critical time tc=(3π/2εHHinf)/2Hinf (in Planck units), where εH= -H/H2 is the first Hubble slow-roll parameter and Hinf is the Hubble rate during inflation. If we instead accept the fine-tuned problem, then the paradox will occur during the dark energy era at the critical time tc'=(3πHinf/2fe2NH2)/2H, where H is the Hubble rate dominated by dark energy, N is the total number of e-folds of inflation, and f is a purification factor that takes the range 0<f<3πHinf/2e2NH2.
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