论文部分内容阅读
Bond-order-resolved local strain and quantum entrapment of atomic clusters and surfaces of silicon
【出 处】
:
第十二届国际凝聚态理论与计算材料学会议(The 12th International Conference on Con
【发表日期】
:
2013年11期
其他文献
实验上,人们不断发现,在室温下对不含任何磁性元素的有机半导体器件施加一个弱的外磁场(<1OOmT),器件电阻将发生明显改变(10%~20%)。他们把这种弱磁场、强响应的磁场效应定义为有机磁电阻(OMAR)效应。目前对其物理机制的理论解释尚未达成一致。有人认为是自旋相关的塞曼相互作用重要,有人认为是电荷相关的洛伦兹相互作用重要。还有人认为氢核的超精细相互作用是产生有机磁电阻的根本原因。我们基于有机小
To interpret the visible broadband luminescence from carbon-related films,we studied stable graphite-like local structures with various sizes.Our quantum mechanical level calculations of a series of s
含有Rashba自旋轨道耦合相互作用的石墨烯具有有趣的电子自旋极化效应.在两端器件石墨烯锯齿形条带中,当入射电子占据只占据一个通道而Rashba区和出射区电子占据两个通道时自旋极化最大,最高可达100%.微扰论分析表明,Rashba自旋轨道耦合导致石墨烯条带中最低两个子带间的子带耦合,从而导致入射电子在输运区的自旋进动以致在合适的器件长度时出射电子被完全极化.更进一步,当入射与出射电子都只占据一个
Correlation between connectivity of local structures and relaxation in metallic glass-forming liquid
会议
我们利用幺正变换解析地获得到了自旋玻色模型(SBM)能态简并的充分必要条件;给出了自旋玻色模型简并能量解析形式;严格证明了自旋玻色模型基态低于系统可能的最低简并能量并具有确定的宇称。首次从宇称算符的不变性出发证明有限展开必然导致对称破缺;解析给出宇称破缺临界点的对数规律,它与迄今为止用量子蒙特卡罗(QMC)和对数离散数字重整化(NRG)方法得到的量子相变临界点一致。在理论上揭示了SBM的量子相变来
会议
Graphene has attracted extensive research interests recently due to its outstanding physical,chemical and electronic prop-erties and numerous potential applications.In particular,the extremely high ca
The triazine-based graphitic C3N4(g-C3N4)sheet,which has been recently synthesized in experiment,is promising in gas storage due to its porous structure and light mass.In this work,we have studied hyd
We show graphene discerns an unconventional sequence of quantized Hall conductivity, when subject to both magnetic fields(B)and strain through both theoretical arguments and numerical calculations. Th
通过第一性原理计算,我们系统的研究了在Ag(111)面上的硅烯的各种位形结构((2x2)silicene/(√7×√7)Ag(111),(√7×,√7)silicene/(2√3×2√3)Ag(111),(√7×√7)silicene/(√13×√13)Ag(111))及其电子性质.我们发现,在所有的位型中,硅烯的狄拉克锥都移到了费米面以下约1.5 eV.并且,由于硅烯与Ag沉底之间的能带杂化,狄