The separate-universe approach and sudden transitions during inflation
The separate-universe approach gives an intuitive way to understand the evolution of cosmological perturbations in the long-wavelength limit. It uses solutions of the spatially-homogeneous equations of motion to model the evolution of the inhomogeneous universe on large scales. We show that the sepa...
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creator | Jackson, Joseph H P Assadullahi, Hooshyar Gow, Andrew D Koyama, Kazuya Vennin, Vincent Wands, David |
description | The separate-universe approach gives an intuitive way to understand the evolution of cosmological perturbations in the long-wavelength limit. It uses solutions of the spatially-homogeneous equations of motion to model the evolution of the inhomogeneous universe on large scales. We show that the separate-universe approach fails on a finite range of super-Hubble scales at a sudden transition from slow roll to ultra-slow roll during inflation in the very early universe. Such transitions are a feature of inflation models giving a large enhancement in the primordial power spectrum on small scales, necessary to produce primordial black holes after inflation. We show that the separate-universe approach still works in a piece-wise fashion, before and after the transition, but spatial gradients on finite scales require a discontinuity in the homogeneous solution at the transition. We discuss the implications for the \(\delta N\) formalism and stochastic inflation, which employ the separate-universe approximation. |
doi_str_mv | 10.48550/arxiv.2311.03281 |
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subjects | Astronomical models Black holes Equations of motion Evolution Perturbation Physics - Cosmology and Nongalactic Astrophysics Universe |
title | The separate-universe approach and sudden transitions during inflation |
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