Thrust generation through low-power laser-metal interaction for space propulsion applications

Horisawa H.; Sumida S.; Yonamine H.; Funaki I.

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Thrust generation through low-power laser-metal interaction for space propulsion applications

机译：通过低功率激光-金属相互作用产生推力，用于太空推进应用

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The micro-Newton thrust generation was observed through low-power continuous wave laser and aluminum foil interaction without any remarkable ablation of the target surface. To evaluate the thrust characteristics, a torsion balance thrust stand capable for the measurement of the thrust level down to micro-Newton ranges was developed. In the case of an aluminum foil target with 12.5 micrometer thickness, the maximum thrust level was 15 micro-Newtons when the laser power was 20 W, or about 0.75 μN/W. It was also found that the laser intensity, or laser power per unit area, irradiated on the target was significantly important on the control of the thrust even under the low-intensity level

机译：通过低功率连续波激光器和铝箔的相互作用观察到微牛顿推力的产生，而靶表面没有任何明显的烧蚀。为了评估推力特性，开发了一种能够测量直至微牛顿范围的推力水平的扭力平衡推力架。对于厚度为12.5微米的铝箔靶，当激光功率为20 W或约0.75μN/ W时，最大推力水平为15微牛顿。还发现，即使在低强度水平下，照射在目标上的激光强度或每单位面积的激光功率对于控制推力也非常重要。

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《Vacuum: Technology Applications & Ion Physics: The International Journal & Abstracting Service for Vacuum Science & Technology》 |2013年第null期|共4页
作者
Horisawa H.; Sumida S.; Yonamine H.; Funaki I.;
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原文格式 PDF
正文语种 eng
中图分类真空技术;
关键词
Laser propulsion; Low-power laser-metal interaction; Plasma propulsion;

机译：激光推进;低功率激光-金属相互作用;等离子推进;

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1. Thrust generation through low-power laser-metal interaction for space propulsion applications [J] . Horisawa H., Sumida S., Yonamine H., Vacuum: Technology Applications & Ion Physics: The International Journal & Abstracting Service for Vacuum Science & Technology . 2013,第Null期

机译：通过低功率激光-金属相互作用产生推力，用于太空推进应用
2. A unified view of energetic efficiency in active drag reduction, thrust generation and self-propulsion through a loss coefficient with some applications [J] . Jaywant H. Arakeri, Ratnesh K. Shukla Journal of Fluids and Structures . 2013,第Null期

机译：主动减阻，推力产生和通过损失系数的自推进的能量效率的统一视图以及某些应用
3. Low frequency rotational loss in a high-temperature superconducting bearing and its application in micro-thrust measurement for space propulsion [J] . Yang Wenjiang, Ji Yu, Yu Long, Superconductor Science & Technology . 2020,第1期

机译：高温超导轴承低频旋转损耗及其在空间推进的微推力测量中的应用
4. Low-Power Laser-Metal Interactionfor Space Propulsion Applications [C] . Hideyuki Horisawa, Sota Sumida, Ikkoh Funaki International Conference on High-Power Laser Ablation . 2010

机译：低功耗激光 - 金属互动对于空间推进应用
5. Variable Structure Feedback Control with Application to Spacecraft with Small Thrust Propulsion Systems [D] . Kitchen-McKinley, Samuel J. 2017

机译：变结构反馈控制在小推力航天器中的应用
6. Optimal specific wavelength for maximum thrust production in undulatory propulsion [O] . Nishant Nangia, Rahul Bale, Nelson Chen, -1

机译：最佳比波长以在波动推进中产生最大推力
7. Effect of Fuel-to-Oxidiser Ratio on Thrust Generation of a Hybrid Al + NaOH + H2O Propulsion System for CubeSat Applications [O] . Ahmed O, Knoll AK 2016

机译：燃料/氧化物比对立方卫星应用中Al + NaOH + H2O混合动力推进系统推力产生的影响
8. LEOS Summer Topical Meetings (1991) on Spaceborne Photonics: Aerospace Applications of Lasers and Electro-Optics and Optical Millimeter-Wave Interactions: Measurements, Generation, Transmission and Control Held in Newport Beach, California on July 22-26, 1991. [R] . 1992

机译：关于星载光子学的LEOs夏季专题会议（1991年）：激光与电光学和光学毫米波相互作用的航空航天应用：测量，发电，传输和控制于1991年7月22日至26日在加利福尼亚州纽波特海滩举行。

Thrust generation through low-power laser-metal interaction for space propulsion applications

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