A study of hydrogen microstructure in amorphous silicon via inversion of nuclear magnetic resonance spectra

Timilsina R.; Biswas P.

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A study of hydrogen microstructure in amorphous silicon via inversion of nuclear magnetic resonance spectra

机译：通过核磁共振波谱反演研究非晶硅中的氢微结构

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We present an inverse approach for studying hydrogen microstructure in amorphous silicon. The approach consists of generating a prior distribution (of spins/hydrogen) by inverting experimental nuclear magnetic resonance (NMR) data, which is subsequently superimposed on a network of amorphous silicon. The resulting network is then relaxed using a total-energy functional to obtain a stable, low-energy configuration such that the initial spin distribution is minimally perturbed. The efficacy of this approach is demonstrated by generating model configurations that not only have the correct NMR spectra but also satisfy simultaneously experimental structural, electronic and vibrational properties of hydrogenated amorphous silicon.

机译：我们提出了一种相反的方法来研究非晶硅中的氢微结构。该方法包括通过反转实验核磁共振（NMR）数据生成先验分布（自旋/氢），随后将其叠加在非晶硅网络上。然后，使用总能量函数放松所得的网络，以获得稳定的低能量配置，以使初始自旋分布受到的干扰最小。通过生成不仅具有正确的NMR光谱而且还同时满足氢化非晶硅的实验结构，电子和振动特性的模型配置，可以证明这种方法的有效性。

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《Journal of Physics. Condensed Matter》 |2013年第16期|共8页
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Timilsina R.; Biswas P.;
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1. A study of hydrogen microstructure in amorphous silicon via inversion of nuclear magnetic resonance spectra [J] . Timilsina R., Biswas P. Journal of Physics. Condensed Matter . 2013,第16期

机译：通过核磁共振波谱反演研究非晶硅中的氢微结构
2. Erratum: Vacancies, microstructure and the moments of nuclear magnetic resonance: The case of hydrogenated amorphous silicon (Journal of Physics Condensed Matter (2011) 23 (065801)) [J] . Biswas P., Timilsina R. Journal of Physics. Condensed Matter . 2011,第24期

机译：勘误：空位，微结构和核磁共振矩：氢化非晶硅的情况（物理凝聚态杂志（2011）23（065801））
3. Interpretation of 29Si nuclear magnetic resonance spectra of amorphous hydrogenated silicon [J] . Journal of Applied Physics . 1986,第5期

机译：非晶氢化硅的29Si核磁共振光谱解释
4. High-frequency electron paramagnetic resonance study of the as deposited and annealed carbon-rich hydrogenated amorphous silicon-carbon films [C] . A. V. Vasin, E. N. Kalabukhova, S. N. Lukin, MRS spring meeting symposium . 2008

机译：沉积和退火的富碳氢化非晶硅碳膜的高频电子顺磁共振研究
5. Nuclear magnetic resonance study of disorder effects near a magnetic instability in cesium platinum silicon germanide. [D] . Young, Ben-Li. 2003

机译：铯铂锗硅中磁不稳定附近的无序效应的核磁共振研究。
6. Two-dimensional J-resolved nuclear magnetic resonance spectral study of two bromobenzene glutathione conjugates. [O] . J A Ferretti, R J Highet, L R Pohl, 1985

机译：两种溴苯谷胱甘肽共轭物的二维J分辨核磁共振谱研究。
7. Microstructure, vacancies and moments of nuclear magnetic resonance of hydrogenated amorphous silicon [O] . Biswas, Parthapratim, Timilsina, Rajendra 2010

机译：核磁共振的微观结构，空位和力矩氢化非晶硅
8. Magnetic-Resonance Studies of Reactively Sputtered Amorphous Silicon-Hydrogen Alloys [R] . Lowry, M. E. 1982

机译：反应溅射非晶硅氢合金的磁共振研究

A study of hydrogen microstructure in amorphous silicon via inversion of nuclear magnetic resonance spectra

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