Laboratory Modelling of Solar Wind Interaction with Lunar Magnetic Anomalies

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The paper presents the results of laboratory experiment modeling the interaction between Lunar magnetic anomalies and Solar wind. To model the LMA we use quadrupole magnetic field. The main dimensionless parameter of the problem, the ion inertia length relative to the mini-magnetosphere size, well corresponds between experiment and LMA conditions. The main result is measurement of the magnetically reflected proton fluxes, which show qualitative agreement to available satellite data.

作者简介

M. Rumenskikh

Laser Physics Department, Institute of Laser Physics; Pushkov Institute of Terrestrial Magnetism, Ionosphere and Radio Wave Propagation

Email: marina_rumenskikh@mail.ru
Novosibirsk, Russia; Moscow, Russia

A. Chibranov

Laser Physics Department, Institute of Laser Physics

Email: marina_rumenskikh@mail.ru
Novosibirsk, Russia

M. Efimov

Laser Physics Department, Institute of Laser Physics

Email: marina_rumenskikh@mail.ru
Novosibirsk, Russia

A. Berezutsky

Laser Physics Department, Institute of Laser Physics

Email: marina_rumenskikh@mail.ru
Novosibirsk, Russia

V. Posukh

Laser Physics Department, Institute of Laser Physics

Email: marina_rumenskikh@mail.ru
Novosibirsk, Russia

P. Trushin

Laser Physics Department, Institute of Laser Physics

Email: marina_rumenskikh@mail.ru
Novosibirsk, Russia

Yu. Zakharov

Laser Physics Department, Institute of Laser Physics

Email: marina_rumenskikh@mail.ru
Novosibirsk, Russia

E. Boyarintsev

Laser Physics Department, Institute of Laser Physics

Email: marina_rumenskikh@mail.ru
Novosibirsk, Russia

I. Miroshnichenko

Laser Physics Department, Institute of Laser Physics

Email: marina_rumenskikh@mail.ru
Novosibirsk, Russia

A. Divin

Physics Department, St. Petersburg State University

Email: marina_rumenskikh@mail.ru
St. Petersburg, Russia

I. Shaikhislamov

Laser Physics Department, Institute of Laser Physics

编辑信件的主要联系方式.
Email: marina_rumenskikh@mail.ru
Novosibirsk, Russia

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版权所有 © М.С. Руменских, А.А. Чибранов, М.А. Ефимов, А.Г. Березуцкий, В.Г. Посух, П.А. Трушин, Ю.П. Захаров, Э.Л. Бояринцев, И.Б. Мирошниченко, А.В. Дивин, И.Ф. Шайхисламов, 2023

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