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Energetic, Vibrational and Electronic Properties of Silicon Using a Nonorthogonal Tight-Binding Model

机译：使用非正交紧束缚模型的硅的能量，振动和电子特性

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We present calculations of energetic, electronic, and vibrational properties of silicon using a nonorthogonal tight-binding (TB) model derived to fit accurately first-principles calculations. Although it was fit only to a few high-symmetry bulk structures, the model can be successfully used to compute the energies and structures of a wide range of configurations. These include phonon frequencies at high-symmetry points, bulk point defects such as vacancies and interstitials, and surface reconstructions. The TB parametrization reproduces experimental measurements and ab initio calculations well, indicating that it describes faithfully the underlying physics of bonding in silicon. We apply this model to the study of finite temperature vibrational properties of crystalline silicon and the electronic structure of amorphous systems that are too large to be practically simulated with ab initio methods.

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Bernstein, N.; Mehl, M. J.; Papaconstantopoulos, D. A.; Papanicolaou, N. I.; Bazant, M. Z.;
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年度 2000
页码 1-12
总页数 12
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Eigenvalues ; Energetic properties ; Silicon ; Approximation(Mathematics) ; Graphs ; Amorphous materials ; Equilibrium(General) ; Electrical properties ; Interstitial ; Charge transfer ; Tables(Data) ; Phonons ; Plane waves ; Vibration ; Temperature ; Hamiltonian functions ; Reprints ; Density;

机译：特征值;能量特性;硅;近似（数学）;图形;非晶材料;平衡（一般）;电学特性;间隙;电荷转移;表（数据）;声子;平面波;振动;温度;哈密顿函数;重印;密度;

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专利

1. STRUCTURAL AND VIBRATIONAL PROPERTIES OF FULLERENES AND NANOTUBES IN A NONORTHOGONAL TIGHT-BINDING SCHEME [J] . Menon M., Subbaswamy KR., Richter E. The Journal of Chemical Physics . 1996,第15期

机译：非正交紧结合方案中富勒烯和纳米管的结构和振动特性
2. Nonorthogonal Tight-binding Study of the Geometries and Electronic Properties of Ge_n (n = 2-20) clusters [J] . Li Si-dian, Zhao Ji-Jun, Wang guang-hou Chemical Research in Chinese Universities . 1999,第1期

机译：Ge_n（n = 2-20）团簇的几何和电子性质的非正交紧束缚研究
3. Nonorthogonal Tight-binding Study of the Geometries and Electronic Properties of Ge_n(n=2—20)Clusters [J] . 高等学校化学研究：英文版 . 1999,第001期

机译：Ge_n（n = 2-20）集群的几何形状和电子特性的非正交紧密研究
4. Curvature effects on the electronic and optical properties of single-walled silicon nanotube within tight-binding model [C] . M. Heidari, V. Ahmadi, S. Darbari Iranian Conference on Electrical Engineering . 2016

机译：紧密结合模型中曲率对单壁硅纳米管电子和光学性能的影响
5. Formation and transport properties of defects in boron-doped silicon studied through tight-binding bond models. [D] . Rasband, Paul Brent. 1996

机译：通过紧密结合键模型研究了掺硼硅中缺陷的形成和传输性质。
6. Tight-binding model for opto-electronic properties of penta-graphene nanostructures [O] . Sergio Bravo, Julián Correa, Leonor Chico, -1

机译：五石墨烯纳米结构的光电特性的紧束缚模型
7. Energetic, vibrational, and electronic properties of silicon using a nonorthogonal tight-binding model [O] . N. Bernstein, M. Mehl, D. Papaconstantopoulos, 2000

机译：使用非正交紧密绑定模型的硅的精力充沛，振动和电子性质
8. Excited Electronic and Vibrational State Decomposition of Energetic Materials and Model Systems on Both Nanosecond and Femtosecond Time Scales. [R] . Bernstein, R. E. 2014

机译：纳秒和飞秒时间尺度上含能材料和模型系统的激发电子和振动状态分解。

Energetic, Vibrational and Electronic Properties of Silicon Using a Nonorthogonal Tight-Binding Model

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