搜索结果: 1-11 共查到“binding energy”相关记录11条 . 查询时间(0.14 秒)
Regularizing binding energy distributions and thermodynamics of hydration. Application to water modeled with classical and ab initio simulations
potential distribution theorem hydration free energy hybrid Monte Carlo vapor-liquid equilibrium
2011/8/5
Abstract: The high-energy tail of the distribution of solute-solvent interaction energies is poorly characterized for condensed systems, but this tail region is of principal interest in determining th...
The MACQM Calculation for the Binding Energy of the Equilateral Triangle Structure of H3- Cluster
H3- cluster binding energy
2007/8/15
2001Vol.35No.3pp.327-329DOI:
The MACQM Calculation for the Binding Energy of the Equilateral Triangle Structure of H3- Cluster
LI Ping,1 GOU Qing-Quan,1 ZHANG Jian-Ping1 and MIAO...
Effect of Nuclear Binding Energy to K Factor
Drell-Yan process nuclear binding energy K factor
2007/8/15
2007Vol.47No.4pp.690-694DOI:
Effect of Nuclear Binding Energy to K Factor
HOU Zhao-Yu1 and GUO Ai-Qiang1,2
1 Department of Mathematics and Physics,
Shijiazhuang Railway ...
Formation Mechanism and Binding Energy for Equilateral Triangle
Structure of He3+ Cluster
He3+ cluster binding energy equilateral triangle
structure
2007/8/15
2002Vol.38No.5pp.597-600DOI:
Formation Mechanism and Binding Energy for Equilateral Triangle
Structure of He3+ Cluster
GOU Qing-Quan1, ZHANG Jian-Ping2, and LI Ping1
1 ...
Formation Mechanism and Binding Energy for Regular Tetrahedral Structure of Li4
Li4 cluster formation mechanism binding energy
2007/8/15
2006Vol.46No.5pp.914-918DOI:
Formation Mechanism and Binding Energy for Regular Tetrahedral Structure of Li4
GOU Qing-Quan, YANG Jian-Hui, and LI Ping
Institute of Atomi...
Formation Mechanism and Binding Energy for Body-Centred Regular
Tetrahedral Structure of Li5
Li5 cluster formation mechanism binding energy
2007/8/15
2006Vol.45No.5pp.914-918DOI:
Formation Mechanism and Binding Energy for Body-Centred Regular
Tetrahedral Structure of Li5
LI Ping, YANG Jian-Hui, and GOU Qing-Quan
Inst...
The Binding Energy, Spin-Excitation Gap, and Charged Gap in the
Boson-Fermion Model
boson-fermion model binding energy excitation gaps
2007/8/15
2003Vol.40No.2pp.215-220DOI:
The Binding Energy, Spin-Excitation Gap, and Charged Gap in the
Boson-Fermion Model
YANG Kai-Hua,1,2 TIAN Guang-Shan,2 and HAN Ru-Qi1
1 Inst...
The Formation Mechanism and Binding Energy for the Octahedral Central Structure of the He7+ Cluster
He7+ cluster binding energy octahedral
central structure
2007/8/15
2003Vol.40No.2pp.203-206DOI:
The Formation Mechanism and Binding Energy for the Octahedral Central Structure of the He7+ Cluster
ZHANG Jian-Ping,2 GOU Qing-Quan,1 and LI Ping1
...
Formation Mechanism and Binding Energy for Equilateral Triangle Structure of Li3 Cluster
Li3 cluster binding energy equilateral triangle structure
2007/8/15
2005Vol.44No.3pp.525-528DOI:
Formation Mechanism and Binding Energy for Equilateral Triangle Structure of Li3 Cluster
YANG Jian-Hui, LI Ping, and GOU Qing-Quan
Institute...
Formation Mechanism and Binding Energy for
Body-Centered Cubic Structure of He9+ Cluster
He9+ cluster binding energy body-centered cubic structure
2007/8/15
2004Vol.41No.1pp.101-105DOI:
Formation Mechanism and Binding Energy for
Body-Centered Cubic Structure of He9+ Cluster
ZHANG Jian-Ping,1 GOU Qing-Quan,2 and LI
Ping2
1 D...
Formation Mechanism and Binding Energy for Icosahedral
Central Structure of
He+13 Cluster
He+13 cluster binding energy icosahedral central structure
2007/8/15
2004Vol.42No.5pp.763-767DOI:
Formation Mechanism and Binding Energy for Icosahedral
Central Structure of
He+13 Cluster
ZHANG Jian-Ping,2 GOU Qing-Quan,1 and
LI Ping1
...