Pearson’s random walk in the space of the CMB phases: Evidence for parity asymmetry

Martin Anders Kirstejn Hansen; Anne Mette Frejsel; Jaiseung Kim; Pavel Nasselski; F. Nesti

doi:10.1103/PhysRevD.83.103508

Pearson’s random walk in the space of the CMB phases: Evidence for parity asymmetry

Martin Anders Kirstejn Hansen, Anne Mette Frejsel, Jaiseung Kim, Pavel Nasselski, F. Nesti

18 Citations (Scopus)

Abstract

The temperature fluctuations of the cosmic microwave background (CMB) are supposed to be distributed randomly in both magnitude and phase, following to the simplest model of inflation. In this paper, we look at the odd and even multipoles of the spherical harmonic decomposition of the CMB, and the different characteristics of these, giving rise to a parity asymmetry. We compare the even and odd multipoles in the CMB power spectrum, and also the even and odd mean angles. We find for the multipoles of the power spectrum that there is power excess in odd multipoles, compared to even ones, meaning that we have a parity asymmetry. Further, for the phases, we present a random walk for the mean angles, and find a significant separation for even/odd mean angles, especially so for galactic coordinates. This is further tested and confirmed with a directional parity test, comparing the parity asymmetry in galactic and ecliptic coordinates.

Original language	English
Article number	103508
Journal	Physical Review D (Particles, Fields, Gravitation and Cosmology)
Volume	83
Issue number	10
ISSN	1550-7998
DOIs	https://doi.org/10.1103/PhysRevD.83.103508
Publication status	Published - 5 May 2011

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title = "Pearson{\textquoteright}s random walk in the space of the CMB phases: Evidence for parity asymmetry",

abstract = "The temperature fluctuations of the cosmic microwave background (CMB) are supposed to be distributed randomly in both magnitude and phase, following to the simplest model of inflation. In this paper, we look at the odd and even multipoles of the spherical harmonic decomposition of the CMB, and the different characteristics of these, giving rise to a parity asymmetry. We compare the even and odd multipoles in the CMB power spectrum, and also the even and odd mean angles. We find for the multipoles of the power spectrum that there is power excess in odd multipoles, compared to even ones, meaning that we have a parity asymmetry. Further, for the phases, we present a random walk for the mean angles, and find a significant separation for even/odd mean angles, especially so for galactic coordinates. This is further tested and confirmed with a directional parity test, comparing the parity asymmetry in galactic and ecliptic coordinates.",

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T1 - Pearson’s random walk in the space of the CMB phases

T2 - Evidence for parity asymmetry

AU - Hansen, Martin Anders Kirstejn

AU - Frejsel, Anne Mette

AU - Kim, Jaiseung

AU - Nasselski, Pavel

AU - Nesti, F.

PY - 2011/5/5

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N2 - The temperature fluctuations of the cosmic microwave background (CMB) are supposed to be distributed randomly in both magnitude and phase, following to the simplest model of inflation. In this paper, we look at the odd and even multipoles of the spherical harmonic decomposition of the CMB, and the different characteristics of these, giving rise to a parity asymmetry. We compare the even and odd multipoles in the CMB power spectrum, and also the even and odd mean angles. We find for the multipoles of the power spectrum that there is power excess in odd multipoles, compared to even ones, meaning that we have a parity asymmetry. Further, for the phases, we present a random walk for the mean angles, and find a significant separation for even/odd mean angles, especially so for galactic coordinates. This is further tested and confirmed with a directional parity test, comparing the parity asymmetry in galactic and ecliptic coordinates.

AB - The temperature fluctuations of the cosmic microwave background (CMB) are supposed to be distributed randomly in both magnitude and phase, following to the simplest model of inflation. In this paper, we look at the odd and even multipoles of the spherical harmonic decomposition of the CMB, and the different characteristics of these, giving rise to a parity asymmetry. We compare the even and odd multipoles in the CMB power spectrum, and also the even and odd mean angles. We find for the multipoles of the power spectrum that there is power excess in odd multipoles, compared to even ones, meaning that we have a parity asymmetry. Further, for the phases, we present a random walk for the mean angles, and find a significant separation for even/odd mean angles, especially so for galactic coordinates. This is further tested and confirmed with a directional parity test, comparing the parity asymmetry in galactic and ecliptic coordinates.

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Pearson’s random walk in the space of the CMB phases: Evidence for parity asymmetry

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