Spectral Anisotropy of Els\"asser Variables in Two Dimensional Wave-vector Space as Observed in the Fast Solar Wind Turbulence

Abstract

Intensive studies have been conducted to understand the anisotropy of solar wind turbulence. However, the anisotropy of Els\"asser variables (Z) in 2D wave-vector space has yet to be investigated. Here we first verify the transformation based on the projection-slice theorem between the power spectral density PSD2D(k,k ) and the spatial correlation function CF2D (r,r ). Based on the application of the transformation to the magnetic field and the particle measurements from the WIND spacecraft, we investigate the spectral anisotropy of Els\"asser variables (Z), and the distribution of residual energy ER, Alfv\'en ratio RA and Els\"asser ratio RE in the (k,k) space. The spectra PSD2D(k,k ) of B, V, and Zmajor (the larger of Z) show a similar pattern that PSD2D(k,k ) is mainly distributed along a ridge inclined toward the k axis. This is probably the signature of the oblique Alfv\'enic fluctuations propagating outwardly. Unlike those of B, V, and Zmajor, the spectrum PSD2D(k,k ) of Zminor is distributed mainly along the k axis. Close to the k axis, | ER| becomes larger while RA becomes smaller, suggesting that the dominance of magnetic energy over kinetic energy becomes more significant at small k. RE is larger at small k, implying that PSD2D(k,k ) of Zminor is more concentrated along the k direction as compared to that of Zmajor. The residual energy condensate at small k is consistent with simulation results in which ER is spontaneously generated by Alfv\'en wave interaction.