固态分子氮纳米团簇中氧原子的发光增强

IF 0.6 4区 物理与天体物理 Q4 PHYSICS, APPLIED
O. Korostyshevskyi, C. K. Wetzel, D. M. Lee, V. V. Khmelenko
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引用次数: 0

摘要

我们研究了氮氦混合气体在通过放电后注入高密度冷氦气时伴随的发光现象。最初,当实验烧杯中充满超流体氦,氮氦气体被注入到T≈1.5 K的大量超流体氦中时,发射光谱中的主要波段是氮原子的α-基团。在这些条件下,形成了具有高浓度稳定氮原子的分子氮纳米簇。当烧杯中的超流体氦被蒸发,烧杯底部的温度升高到 T≈ 20 K 时,我们观察到发光光谱发生了急剧变化。氧原子的 β 基团在发光光谱中占主导地位,而 α 基团的发射变得很小。在高温下(T ≈ 20 K),大部分氮原子在 N2 纳米簇表面重新结合,形成激发的氮分子。我们通过激发的氮分子向 N2 纳米团簇内稳定的杂质氧原子的有效能量转移,解释了 β 基团发射增强的效应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enhanced luminescence of oxygen atoms in solid molecular nitrogen nanoclusters
We studied luminescence accompanied an injection of the nitrogen-helium gas mixture after passing discharge into dense cold helium gas. Initially, when the experimental beaker was filled with superfluid helium and the nitrogen-helium gas was injected into bulk superfluid helium at T ≈ 1.5 K, the dominant band in the emission spectra was the α-group of nitrogen atoms. At these conditions, the nanoclusters of molecular nitrogen with high concentrations of stabilized nitrogen atoms were formed. When superfluid helium was evaporated from the beaker and the temperature at the bottom of the beaker was increased to T ≈ 20 K, we observed a drastic change in the luminescence spectra. The β-group of oxygen atoms was dominated in the luminescence spectra, and the emission of the α-group became small. At high temperatures (T ≈ 20 K), most of the nitrogen atoms recombine on the surface of N2 nanoclusters with the formation of excited nitrogen molecules. We explained the effect of the enhancement of β-group emission by effective energy transfer from excited nitrogen molecules to the stabilized impurity oxygen atom inside N2 nanoclusters.
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来源期刊
Low Temperature Physics
Low Temperature Physics 物理-物理:应用
CiteScore
1.20
自引率
25.00%
发文量
138
审稿时长
3 months
期刊介绍: Guided by an international editorial board, Low Temperature Physics (LTP) communicates the results of important experimental and theoretical studies conducted at low temperatures. LTP offers key work in such areas as superconductivity, magnetism, lattice dynamics, quantum liquids and crystals, cryocrystals, low-dimensional and disordered systems, electronic properties of normal metals and alloys, and critical phenomena. The journal publishes original articles on new experimental and theoretical results as well as review articles, brief communications, memoirs, and biographies. Low Temperature Physics, a translation of the copyrighted Journal FIZIKA NIZKIKH TEMPERATUR, is a monthly journal containing English reports of current research in the field of the low temperature physics. The translation began with the 1975 issues. One volume is published annually beginning with the January issues.
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