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Complex Plasma Research under Microgravity Conditions: PK-3 Plus Laboratory on the International Space Station

机译：微重力条件下的复杂等离子体研究：国际空间站的PK-3 Plus实验室

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Complex (dusty) plasmas are composed of weakly ionised gas and charged microparticles and represent the\udplasma state of soft matter. Due to the ”heavy” component — the microparticles — and the low density of the\udsurrounding medium, the rarefied gas and plasma, it is necessary to perform experiments under microgravity\udconditions to cover a broad range of experimental parameters which are not available on ground. The investigations have been performed onboard the International Space Station (ISS) with the help of the ”Plasma Crystal-3 Plus” (PK-3 Plus) laboratory. It was perfectly suited for the formation of large stable liquid and crystalline Systems and provided interesting insights into processes like crystallisation and melting, laning in binary mixtures, electrorheological effects due to ac electric fields and projectile interaction with a strongly coupled complex\udplasma cloud.

机译：复杂（尘土飞扬）的等离子体由弱电离的气体和带电微粒组成，代表了软物质的\等离子状态。由于“重”组分（微粒）以及\周围环境介质，稀有气体和等离子体的密度低，因此有必要在微重力\ ud条件下进行实验，以覆盖广泛的实验参数。地面。这项调查是在“ Plasma Crystal-3 Plus”（PK-3 Plus）实验室的帮助下在国际空间站（ISS）上进行的。它非常适合于形成大型稳定的液晶系统，并提供了有趣的洞察力，例如结晶和熔化，二元混合物通道，交流电场引起的电流变效应以及与强烈耦合的复合物\等离子云的弹丸相互作用。

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Khrapak, Alexey; Molotkov, Vladimir; Lipaev, Andrey; Zhukhovitskii, Dmitry; Naumkin, Vadim; Fortov, Vladimir; Petrov, Oleg; Thomas, Hubertus; Khrapak, Sergey; Huber, Peter; Ivlev, Alexei; Morfill, Gregor E.;
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1. Complex Plasma Research under Microgravity Conditions: PK-3 Plus Laboratory on the International Space Station [J] . Khrapak A. G., Molotkov V. I., Lipaev A. M., Contributions to Plasma Physics . 2016,第3a4期

机译：微重力条件下的复杂等离子体研究：国际空间站的PK-3 Plus实验室
2. Comprehensive experimental study of heartbeat oscillations observed under microgravity conditions in the PK-3 Plus laboratory on board the International Space Station [J] . Heidemann R. J., Cou?del L., Zhdanov S. K., Physics of plasmas . 2011,第5aPta1期

机译：在国际空间站的PK-3 Plus实验室中，在微重力条件下观察到的心跳振荡的综合实验研究
3. Latest Results on Complex Plasmas with the PK-3 Plus Laboratory on Board the International Space Station [J] . Schwabe M., Du C. -R., Huber P., Microgravity science and technology . 2018,第5期

机译：国际空间站上PK-3 Plus实验室对复杂等离子体的最新结果
4. COMPLEX PLASMA RESEARCH ON ISS PKE-NEFEDOV, PK-3 PLUS, PK-4, AND IMPACT LABORATORY [C] . Seurig, R., Morfill, International Astronautical Congress(IAC2006); 20061002-06; Valencia(ES) . 2006

机译：ISS PKE-NEFEDOV，PK-3 PLUS，PK-4和冲击实验室的复杂等离子体研究
5. High-performing simulations of the space radiation environment for the International Space Station and Apollo Missions. [D] . Lund, Matthew Lawrence. 2016

机译：国际空间站和阿波罗飞行任务的空间辐射环境的高性能模拟。
6. The Utilization of Plant Facilities on the International Space Station—The Composition Growth and Development of Plant Cell Walls under Microgravity Conditions [O] . Ann-Iren Kittang Jost, Takayuki Hoson, Tor-Henning Iversen 2015

机译：国际空间站上植物设施的利用—在微重力条件下植物细胞壁的组成生长和发育
7. Complex plasma research under microgravity conditions: PK-3 Plus laboratory on the International Space Station [O] . Khrapak, A., Molotkov, V., Lipaev, A., 2016

机译：微重力条件下的复杂等离子体研究：国际空间站上的pK-3 plus实验室
8. Microgravity Science Glovebox (MSG) Space Sciences's Past, Present, and Future on the International Space Station (ISS). [R] . Spivey, R. A., Jordan, L. P. 2012

机译：微重力科学手套箱（msG）空间科学在国际空间站（Iss）的过去，现在和未来。

Complex Plasma Research under Microgravity Conditions: PK-3 Plus Laboratory on the International Space Station

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