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EP: Fachverband Extraterrestrische Physik

EP 7: Sonne und Heliosphäre II

EP 7.5: Vortrag

Mittwoch, 15. März 2017, 09:45–10:00, GW2 B2880

Model for Reduced Power Spectra of Critically Balanced Solar Wind Turbulence with Damping by Kinetic Alfvén Waves — •Anne Schreiner¹, Joachim Saur¹, Michael von Papen¹, Olga Alexandrova², and Catherine Lacombe² — ¹Universität zu Köln, Institut für Geophysik und Meteorologie — ²Paris Observatory Meudon

The observed spectral structure of magnetic turbulence at electrons scales in the solar wind is still not sufficiently understood. Analytical dissipation models for solar wind turbulence are usually derived in the three-dimensional wavenumber space. However, in-situ observations of magnetic fluctuations are obtained in a one-dimensional reduced form in the spacecraft frame, where various wavevectors contribute to the spectral energy density at a certain frequency. Based on a forward modeling approach by von Papen & Saur (2015), we calculate reduced spectral energy densities from a three-dimensional energy distribution in wavenumber space under the assumption of critically balanced turbulence and damping via wave-particle interactions of kinetic Alfvén waves. The damping is described through the imaginary part of the kinetic Alfvén wave frequency, which we obtain from linear Vlasov theory. We compare the spectral energy densities to a set of observations obtained from one-dimensional magnetic field measurements of the Cluster spacecraft analyzed in Alexandrova et al. (2012).