Plasma generation and processing of interstellar carbonaceous dust analogs.

IF 3.3 2区物理与天体物理 Q1 PHYSICS, FLUIDS & PLASMAS

Plasma Sources Science & Technology Pub Date : 2018-03-14 DOI:10.1088/1361-6595/aab185

R J Peláez, B Maté, I Tanarro, G Molpeceres, M Jiménez-Redondo, V Timón, R Escribano, V J Herrero

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引用次数: 8

Abstract

Interstellar (IS) dust analogs, based on amorphous hydrogenated carbon (a-C:H) were generated by plasma deposition in RF discharges of CH₄ + He mixtures. The a-C:H samples were characterized by means of secondary electron microscopy (SEM), infrared (IR) spectroscopy and UV-visible reflectivity. DFT calculations of structure and IR spectra were also carried out. From the experimental data, atomic compositions were estimated. Both IR and reflectivity measurements led to similar high proportions (≈ 50%) of H atoms, but there was a significant discrepancy in the sp²/sp³ hybridization ratios of C atoms (sp²/sp³ = 1.5 from IR and 0.25 from reflectivity). Energetic processing of the samples with 5 keV electrons led to a decay of IR aliphatic bands and to a growth of aromatic bands, which is consistent with a dehydrogenation and graphitization of the samples. The decay of the CH aliphatic stretching band at 3.4 µm upon electron irradiation is relatively slow. Estimates based on the absorbed energy and on models of cosmic ray (CR) flux indicate that CR bombardment is not enough to justify the observed disappearance of this band in dense IS clouds.

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星际碳质尘埃类似物的等离子体生成和处理。

基于无定形氢化碳（a-C:H）的星际（IS）尘埃类似物是通过CH4+He混合物的RF放电中的等离子体沉积产生的。利用二次电子显微镜（SEM）、红外光谱（IR）和紫外-可见光反射率对a-C:H样品进行了表征。还进行了结构和红外光谱的DFT计算。根据实验数据，估计了原子的组成。IR和反射率测量都导致了类似的高比例（≈50%）的H原子，但C原子的sp2/sp3杂化比存在显著差异（红外光谱中sp2/sp3=1.5，反射率为0.25）。具有5keV电子的样品的高能处理导致IR脂族带的衰变和芳香族带的生长，这与样品的脱氢和石墨化一致。在电子辐照下，在3.4µm处的CH脂肪族伸缩带的衰变相对较慢。基于吸收的能量和宇宙射线（CR）通量模型的估计表明，CR轰击不足以证明在稠密的is云中观察到的该波段的消失。

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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来源期刊

Plasma Sources Science & Technology 物理-物理：流体与等离子体

CiteScore

7.10

自引率

31.60%

发文量

258

审稿时长

4.5 months

期刊介绍： Plasma Sources Science and Technology (PSST) reports on low-temperature plasmas and ionized gases operating over all ranges of gas pressure and plasma density, with varying degrees of ionization. The emphasis of PSST is on the fundamental science of these plasmas, their sources and the physical and chemical processes initiated or sustained by them, as elucidated through theoretical, computational or experimental techniques. PSST also reports on new experimentally or theoretically derived fundamental data (e.g. cross sections, transport coefficients) required for investigation of low temperature plasmas. Reports that relate to the technology and applications of these plasmas should be closely linked to the science and fundamental processes occurring in the plasma state.