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Interpreting Magnetic Variance Anisotropy Measurements in the Solar Wind

arXiv:1205.0749 · doi:10.1088/0004-637X/753/2/107

Abstract

The magnetic variance anisotropy ($\mathcal{A}_m$) of the solar wind has been used widely as a method to identify the nature of solar wind turbulent fluctuations; however, a thorough discussion of the meaning and interpretation of the $\mathcal{A}_m$ has not appeared in the literature. This paper explores the implications and limitations of using the $\mathcal{A}_m$ as a method for constraining the solar wind fluctuation mode composition and presents a more informative method for interpreting spacecraft data. The paper also compares predictions of the $\mathcal{A}_m$ from linear theory to nonlinear turbulence simulations and solar wind measurements. In both cases, linear theory compares well and suggests the solar wind for the interval studied is dominantly Alfvénic in the inertial and dissipation ranges to scales $k ρ_i \simeq 5$.

15 pages, 10 figures, accepted for publication in The Astrophysical Journal