B. Esteves, Christophe Blondel, Pascal Chabert, Tanguy Michel, Cyril Drag
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引用次数: 0
摘要
碘是一种很有前途的推进剂,可用于未来太空推进中使用的等离子推进器。因此,了解低压碘等离子体的基本物理和化学性质非常重要。本研究采用光吸收方法测量碘分子 I2 和碘原子 I 的密度、原子的平移温度和解离分数。等离子体是通过电容耦合射频放电在长石英管中产生的,压力在几帕到几十帕之间变化。原子蒸汽的平移温度随射频功率和压力的增加而增加,达到 1000 Kat 50 瓦和 25 帕。在 120 瓦和 5 帕的条件下,分子似乎可以有效地解离,沿视线方向的平均解离率超过 65%。这些测量结果有助于建立碘等离子体的化学模型。
Measurement of the main neutral species densities and temperatures in iodine plasmas using optical absorption techniques
Iodine is a promising propellant for future plasma thrusters used in space propulsion. It is therefore important to understand the basic physics and chemistry of low pressure iodine plasma plasmas. In the present work, optical absorption methods are used to measure the densities of iodine molecules, I2, and iodine atoms, I, the translational temperature of the atoms and the dissociation fraction. The plasma is generated in a long quartz tube by a capacitively coupled RF discharge, and the pressure is varied between a few Pa and a few tens of Pa. The translational temperature of the atom vapour increases both with RF power and with pressure and reaches 1000 Kat 50 watts and 25 Pa. The molecules appear to be efficiently dissociated, with a dissociation fraction found above 65 %, on average along the line-of-sight, at 120 watts and 5 Pa. The population of the upper, 2Po 1/2, fine-structure level of the atomic ground term is found to be negligible, which confirms the existence of a high quenching rate, due to collisions with molecules and/or atoms. These measurements can be helpful for chemistry models of iodine plasmas.
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