N. G. Mazur | Researchain

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Journal of Geophysical Research | 1998

MHD wave conversion in plasma waveguides

E. N. Fedorov; N. G. Mazur; V. A. Pilipenko; K. Yumoto

A theoretical approach to the consideration of coupling between Alfven and compressional modes in two-dimensionally inhomogeneous plasma has been developed. The conversion of a compressional mode, propagating along a high-density layer perpendicular to the magnetic field, into leaking shear Alfven waves has been considered. The wave spatial structure along the layer is described in WKB approximation. A compressional-type disturbance effectively emitts Alfven waves when a local resonant condition within the layer is fulfilled. In contrast with the common field line resonance theory, the excited Alfven modes are assumed to be running away waves but not standing oscillations. The physical situations that correspond to the considered model can be met in the outer near-equatorial magnetosphere, in the exterior cusp region, and in the other magnetospheres such as Jupiter and Saturn.

Journal of Geophysical Research | 2008

Interaction of propagating magnetosonic and Alfvén waves in a longitudinally inhomogeneous plasma

V. A. Pilipenko; N. G. Mazur; E. N. Fedorov; M. J. Engebretson

Journal of Geophysical Research | 2005

Alfven wave reflection in a curvilinear magnetic field and formation of Alfvenic resonators on open field lines

V. A. Pilipenko; N. G. Mazur; E. N. Fedorov; M. J. Engebretson; David Lee Murr

Journal of Geophysical Research | 2016

Interaction of magnetospheric Alfvén waves with the ionosphere in the Pc1 frequency band

E. N. Fedorov; N. G. Mazur; V. A. Pilipenko; M. J. Engebretson

Journal of Geophysical Research | 2016

Modeling the high‐latitude ground response to the excitation of the ionospheric MHD modes by atmospheric electric discharge

E. N. Fedorov; N. G. Mazur; V. A. Pilipenko; L. Baddeley

Journal of Geophysical Research | 2018

ULF Electromagnetic Field in the Upper Ionosphere Excited by Lightning

N. G. Mazur; E. N. Fedorov; V. A. Pilipenko; V. V. Vakhnina

Journal of Geophysical Research | 2016

Modeling the high-latitude ground response to the excitation of the ionospheric MHD modes by atmospheric electric discharge: ULF RESPONSE TO ATMOSPHERIC DISCHARGE

E. N. Fedorov; N. G. Mazur; V. A. Pilipenko; L. Baddeley

Journal of Geophysical Research | 2016

Interaction of magnetospheric Alfvén waves with the ionosphere in the Pc1 frequency band: INTERACTION OF PC1 WAVES WITH IONOSPHERE

E. N. Fedorov; N. G. Mazur; V. A. Pilipenko; M. J. Engebretson

Archive | 2008

ULF waves/transients at polar latitudes as possible image of the magnetotail dynamics

V. A. Pilipenko; E. N. Fedorov; N. G. Mazur; Mark J. Engebretson

Journal of Geophysical Research | 2008

Interaction of propagating magnetosonic and Alfvén waves in a longitudinally inhomogeneous plasma: INTERACTION OF MAGNETOSONIC AND ALFVÉN WAVES

V. A. Pilipenko; N. G. Mazur; E. N. Fedorov; M. J. Engebretson

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E. N. Fedorov

Russian Academy of Sciences

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V. A. Pilipenko

Augsburg College

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M. J. Engebretson

Augsburg College

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David Lee Murr

Augsburg College

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L. Baddeley

University Centre in Svalbard

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V. A. Pilipenko

Augsburg College

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Mark J. Engebretson

Augsburg College

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K. Yumoto

Kyushu University

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