用于先进惰性气体激光器(ANGL)的碳纳米管光纤等离子体和激光动力学及场发射

SPIE LASE Pub Date : 2016-04-22 DOI:10.1117/12.2214790

P. Moran, N. Lockwood, M. Lange, D. Hostutler, E. Guild, Matthew R. Guy, J. E. McCord, G. Pitz

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引用次数: 3

摘要

为了研究先进惰性气体激光器(ANGL)的时间动力学特性，利用脉冲钛蓝宝石激光器进行光泵浦，证明了912 nm的亚稳氩激光器。使用射频(RF)电容耦合放电保持了1011 cm-3左右的亚稳氩浓度。端泵浦激光器产生的输出功率平均在2mw以下，脉冲长度约为100ns。将实验结果与采用纵向平均泵浦和腔间强度的四能级激光模型进行了比较。探索了一种利用碳纳米管(CNT)纤维制备亚稳氩的高效方法。

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Plasma and laser kinetics and field emission from carbon nanotube fibers for an Advanced Noble Gas Laser (ANGL)

A metastable argon laser operating at 912 nm has been demonstrated by optically pumping with a pulsed titanium sapphire laser to investigate the temporal dynamics of an Advanced Noble Gas Laser (ANGL). Metastable argon concentrations on the order of 1011 cm-3 were maintained with the use of a radio frequency (RF) capacitively coupled discharge. The end-pumped laser produced output powers under 2 mW of average power with pulse lengths on the order of 100 ns. A comparison between empirical results and a four level laser model using longitudinally average pump and inter-cavity intensities is made. An alternative, highly-efficient method of argon metastable production for ANGL was explored using carbon nanotube (CNT) fibers.

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