Petersen, Pip scite author profile

Petersen, Pip

3Publications

21Citation Statements Received

99Citation Statements Given

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Case Western Reserve University, Pennsylvania State University

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Cosmic topology. Part I. Limits on orientable Euclidean manifolds from circle searches

Pip

Akrami

Copi

et al. 2023

J. Cosmol. Astropart. Phys.

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The Einstein field equations of general relativity constrain the local curvature at every point in spacetime, but say nothing about the global topology of the Universe. Cosmic microwave background anisotropies have proven to be the most powerful probe of non-trivial topology since, within ΛCDM, these anisotropies have well-characterized statistical properties, the signal is principally from a thin spherical shell centered on the observer (the last scattering surface), and space-based observations nearly cover the full sky. The most generic signature of cosmic topology in the microwave background is pairs of circles with matching temperature and polarization patterns. No such circle pairs have been seen above noise in the WMAP or Planck temperature data, implying that the shortest non-contractible loop around the Universe through our location is longer than 98.5% of the comoving diameter of the last scattering surface. We translate this generic constraint into limits on the parameters that characterize manifolds with each of the nine possible non-trivial orientable Euclidean topologies, and provide a code which computes these constraints. In all but the simplest cases, the shortest non-contractible loop in the space can avoid us, and be shorter than the diameter of the last scattering surface by a factor ranging from 2 to at least 6. This result implies that a broader range of manifolds is observationally allowed than widely appreciated. Probing these manifolds will require more subtle statistical signatures than matched circles, such as off-diagonal correlations of harmonic coefficients.

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The Search for the Topology of the Universe Has Just Begun

Akrami¹,

Copi²,

Eskilt³

et al. 2022

Preprint

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Tunneling dynamics of an oscillating universe model

Bojowald

Pip

2022

J. Cosmol. Astropart. Phys.

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Quasiclassical methods for non-adiabatic quantum dynamics can reveal new features of quantum effects, such as tunneling evolution, that are harder to analyze in standard treatments based on wave functions of stationary states. Here, these methods are applied to an oscillating universe model introduced recently. Our quasiclassical treatment correctly describes several expected features of tunneling states, in particular just before and after tunneling into a trapped region where a model universe may oscillate through many cycles of collapse and expansion. As a new result, the oscillating dynamics is found to be much less regular than in the classical description, revealing a succession of cycles with varying maximal volume even when the matter ingredients and their parameters do not change.

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Petersen, Pip

Cosmic topology. Part I. Limits on orientable Euclidean manifolds from circle searches

The Search for the Topology of the Universe Has Just Begun

Tunneling dynamics of an oscillating universe model

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