Solution to the cosmic ray anisotropy problem

In the standard diffusive picture for transport of cosmic rays (CRs), a gradient in the CR density induces a typically small, dipolar anisotropy in their arrival directions. This is being widely advertised as a tool for finding nearby sources. However, the predicted dipole amplitude at TeV and PeV e...

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Veröffentlicht in:	Physical review letters 2015-01, Vol.114 (2), p.021101-021101, Article 021101
Hauptverfasser:	Mertsch, Philipp, Funk, Stefan
Format:	Artikel
Sprache:	eng
Schlagworte:	Amplitudes Anisotropy Cosmic rays Density Deviation Dipoles Magnetic fields Searching
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container_title	Physical review letters
container_volume	114
creator	Mertsch, Philipp Funk, Stefan
description	In the standard diffusive picture for transport of cosmic rays (CRs), a gradient in the CR density induces a typically small, dipolar anisotropy in their arrival directions. This is being widely advertised as a tool for finding nearby sources. However, the predicted dipole amplitude at TeV and PeV energies exceeds the measured one by almost 2 orders of magnitude. Here, we critically examine the validity of this prediction, which is based on averaging over an ensemble of turbulent magnetic fields. We focus on (1) the deviations of the dipole in a particular random realization from the ensemble average, and (2) the possibility of a misalignment between the regular magnetic field and the CR gradient. We find that if the field direction and the gradient direction are close to ∼90°, the dipole amplitude is considerably suppressed and can be reconciled with observations, which sheds light on a long-standing problem. Furthermore, we show that the dipole direction in general does not coincide with the gradient direction, thus hampering the search for nearby sources.
doi_str_mv	10.1103/physrevlett.114.021101
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This is being widely advertised as a tool for finding nearby sources. However, the predicted dipole amplitude at TeV and PeV energies exceeds the measured one by almost 2 orders of magnitude. Here, we critically examine the validity of this prediction, which is based on averaging over an ensemble of turbulent magnetic fields. We focus on (1) the deviations of the dipole in a particular random realization from the ensemble average, and (2) the possibility of a misalignment between the regular magnetic field and the CR gradient. We find that if the field direction and the gradient direction are close to ∼90°, the dipole amplitude is considerably suppressed and can be reconciled with observations, which sheds light on a long-standing problem. 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subjects	Amplitudes Anisotropy Cosmic rays Density Deviation Dipoles Magnetic fields Searching
title	Solution to the cosmic ray anisotropy problem
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