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W3033967544 abstract "Anisotropies generically dominate the earliest stages of expansion of a homogeneous universe. They are particularly relevant in bouncing models, since shears grow in the contracting phase of the cosmos, making the isotropic situation unstable. This paper extends the study of cosmological perturbations in loop quantum cosmology (LQC) to anisotropic Bianchi I models that contain a bounce followed by a phase of slow-roll inflation. We show that, although the shear tensor dilutes and the universe isotropizes soon after the bounce, cosmic perturbations retain memory of this short anisotropic phase. We develop the formalism needed to describe perturbations in anisotropic, effective LQC, and apply it to make predictions for the cosmic microwave background (CMB), while respecting current observational constraints. We show that the anisotropic bounce induces: (i) anisotropic features in all angular correlation functions in the CMB, and in particular a quadrupolar modulation that can account for a similar feature observed in the temperature map by the Planck satellite, and (ii) quantum entanglement between scalar and tensor modes, that manifests itself in temperature-polarization (T-B and E-B) correlations in the CMB." @default.
W3033967544 created "2020-06-12" @default.
W3033967544 creator A5026221557 @default.
W3033967544 creator A5047920986 @default.
W3033967544 creator A5051799871 @default.
W3033967544 date "2020-08-26" @default.
W3033967544 modified "2023-10-17" @default.
W3033967544 title "Observational consequences of Bianchi I spacetimes in loop quantum cosmology" @default.
W3033967544 cites W1863413555 @default.
W3033967544 cites W1966550677 @default.
W3033967544 cites W1970323114 @default.
W3033967544 cites W1971230011 @default.
W3033967544 cites W1973861971 @default.
W3033967544 cites W1984153078 @default.
W3033967544 cites W1987010236 @default.
W3033967544 cites W1995102122 @default.
W3033967544 cites W2006167147 @default.
W3033967544 cites W2007210014 @default.
W3033967544 cites W2009413317 @default.
W3033967544 cites W2011959493 @default.
W3033967544 cites W2012869970 @default.
W3033967544 cites W2019838186 @default.
W3033967544 cites W2020389881 @default.
W3033967544 cites W2020396830 @default.
W3033967544 cites W2020744884 @default.
W3033967544 cites W2023871391 @default.
W3033967544 cites W2024019581 @default.
W3033967544 cites W2026517113 @default.
W3033967544 cites W2029143135 @default.
W3033967544 cites W2029791023 @default.
W3033967544 cites W2035784745 @default.
W3033967544 cites W2039084900 @default.
W3033967544 cites W2040268923 @default.
W3033967544 cites W2040701852 @default.
W3033967544 cites W2048737175 @default.
W3033967544 cites W2051142510 @default.
W3033967544 cites W2062301814 @default.
W3033967544 cites W2064559964 @default.
W3033967544 cites W2069721634 @default.
W3033967544 cites W2075803525 @default.
W3033967544 cites W2077829805 @default.
W3033967544 cites W2080974936 @default.
W3033967544 cites W2087690346 @default.
W3033967544 cites W2090527427 @default.
W3033967544 cites W2093174556 @default.
W3033967544 cites W2098001159 @default.
W3033967544 cites W2098989214 @default.
W3033967544 cites W2105991089 @default.
W3033967544 cites W2118084428 @default.
W3033967544 cites W2124214065 @default.
W3033967544 cites W2124508872 @default.
W3033967544 cites W2126106103 @default.
W3033967544 cites W2127578009 @default.
W3033967544 cites W2130038292 @default.
W3033967544 cites W2134251287 @default.
W3033967544 cites W2134990923 @default.
W3033967544 cites W2143414362 @default.
W3033967544 cites W2145511126 @default.
W3033967544 cites W2149289292 @default.
W3033967544 cites W2151129379 @default.
W3033967544 cites W2151412071 @default.
W3033967544 cites W2164459358 @default.
W3033967544 cites W2165298482 @default.
W3033967544 cites W2170603249 @default.
W3033967544 cites W2231205614 @default.
W3033967544 cites W2234735248 @default.
W3033967544 cites W2260499834 @default.
W3033967544 cites W2348183132 @default.
W3033967544 cites W2508761786 @default.
W3033967544 cites W2541381947 @default.
W3033967544 cites W2573947803 @default.
W3033967544 cites W2589426552 @default.
W3033967544 cites W2777209080 @default.
W3033967544 cites W3006693147 @default.
W3033967544 cites W3012230740 @default.
W3033967544 cites W3037141003 @default.
W3033967544 cites W3099105306 @default.
W3033967544 cites W3099105774 @default.
W3033967544 cites W3101088284 @default.
W3033967544 cites W3101201768 @default.
W3033967544 cites W3101519645 @default.
W3033967544 cites W3103019803 @default.
W3033967544 cites W3103801042 @default.
W3033967544 cites W3104251830 @default.
W3033967544 cites W3106298660 @default.
W3033967544 cites W3123183105 @default.
W3033967544 cites W4211153004 @default.
W3033967544 cites W4234779674 @default.
W3033967544 cites W4254021969 @default.
W3033967544 cites W4256093087 @default.
W3033967544 doi "https://doi.org/10.1103/physrevd.102.043523" @default.
W3033967544 hasPublicationYear "2020" @default.
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