Carbon nanotube collimator as an vacuum ultraviolet window

S. C. Olsen, D. D. Allred, R. R. Vanfleet
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Abstract

Windows for vacuum ultraviolet (VUV) sources are valuable for many applications but difficult to fabricate due to most materials being too absorptive at VUV wavelengths. We have designed, fabricated, and characterized a carbon nanotube (CNT) collimator as a window with high (VUV) transmission and significant differential pumping. The CNT collimators are arrays of square channels of various dimensions and height with sidewalls composed of vertically aligned CNT forests. The CNT collimators in this work exhibited peak intensity transmissions for VUV light (58.4 nm) of 18%–37% of that reported for the same system without a collimator present [S. Olsen, D. Allred, and R. Vanfleet, J. Vac. Sci. Technol. A (2024)]. Further analysis found that the peak intensity transmissions were lowered due to carbon deposition on the phosphor viewing screen from contaminants. The CNT collimator also had significant sidewall reflection in the VUV range (R=0.21±0.08 in the VUV range for angles 15.6 degrees and below). Pressure ratios (low pressure over high pressure) in the VUV transmission experiment were dominated by leaks in the alignment mechanism. Additional experiments demonstrated the CNT collimator’s reflection and superior differential pumping with pressure ratios less than 0.001.
作为真空紫外窗口的碳纳米管准直器
真空紫外(VUV)光源的窗口在许多应用中都很有价值,但由于大多数材料在 VUV 波长处的吸收性太强而难以制造。我们设计、制造并鉴定了一种碳纳米管(CNT)准直器,它是一种具有高(紫外)透射率和显著差分泵浦的窗口。碳纳米管准直器是由不同尺寸和高度的方形通道组成的阵列,其侧壁由垂直排列的碳纳米管林组成。这项研究中的 CNT 准直器对紫外光(58.4 纳米)的峰值传输强度为未使用准直器的相同系统的 18%-37%[S. Olsen、D. Allred 和 R. Vanfleet,J. Vac. Sci. Technol. A (2024)]。进一步分析发现,由于污染物在荧光屏上的碳沉积,峰值强度透射率降低。碳纳米管准直器在紫外光范围内也有明显的侧壁反射(在紫外光范围内,角度为 15.6 度及以下时,R=0.21±0.08)。紫外透射实验中的压力比(低压比高压)主要是由对准机制中的泄漏造成的。其他实验证明了 CNT 准直器的反射能力和出色的差分泵送能力,压力比小于 0.001。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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