Antiprobcotron magnetic trap for charged dust particles in space experiments

Space engineering and technology Pub Date : 2019-09-30 DOI:10.33950/SPACETECH-2308-7625-2019-3-20-29

L. D’yachkov, M. Vasilyev, O. Petrov, S. Savin, I. Churilo

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Abstract

We discuss the possibility of using static magnetic traps as an alternative to electrostatic traps for forming and confining structures of charged dust particles in a gas discharge plasma in the context of our study of strongly interacting Coulomb systems. Some advantages of confining structures in magnetic traps over electrostatic ones are shown. Also we provide a review of the related researches carried out first in laboratory conditions, and then under microgravity conditions including the motivation of performing the experiments aboard the International Space Station (ISS). The preparations of a new space experiment «Coulomb-magnet» as well as the differences of a new equipment from previously used are described. We proposed the main tasks of the new experiment as a study of the dynamics and structure of active monodisperse and polydisperse macroparticles in an inhomogeneous magnetic field under microgravity conditions, including phase transitions and the evolution of such systems in the kinetic heating of dust particles by laser radiation. Key words: Coulomb structures, magnetic trap, antiprobotron, diamagnetic particles, dust particles, microgravity.

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空间实验中带电尘埃粒子的反预控磁阱

我们讨论了在强相互作用库仑系统的研究背景下，使用静电磁阱作为静电阱的替代方案，在气体放电等离子体中形成和限制带电尘埃粒子的结构的可能性。指出了磁阱约束结构相对于静电阱约束结构的一些优点。此外，本文还介绍了在实验室和微重力条件下进行的相关研究，包括在国际空间站上进行实验的动机。介绍了新空间实验«库仑磁体»的准备工作，以及新设备与以前使用的不同之处。我们提出了新实验的主要任务是研究微重力条件下非均匀磁场下活性单分散和多分散大颗粒的动力学和结构，包括激光辐射对尘埃颗粒的动力学加热中的相变和这些系统的演化。关键词:库仑结构，磁阱，反质子，抗磁粒子，尘埃粒子，微重力

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Space engineering and technology

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