内蒙古民族大学学报(自然科学版)
內矇古民族大學學報(自然科學版)
내몽고민족대학학보(자연과학판)
JOURNAL OF INNER MONGOLIA UNIVERSITY FOR NATIONALITIES(NATURAL SCIENCES)
2014年
3期
249-251
,共3页
RbCl量子点%线性组合算符%基态能量%温度效应
RbCl量子點%線性組閤算符%基態能量%溫度效應
RbCl양자점%선성조합산부%기태능량%온도효응
RbCl quantum dot%Linear combination operator%Ground state energy%Temperature effect
采用线性组合算符和Line-Low-Pines(LLP)幺正变换方法研究了RbCl量子点中强耦合磁极化子基态能量的温度效应。并对RbCl晶体进行数值计算,结果表明:基态能量随有效受限强度、磁场回旋频率和温度的增加而增加。
採用線性組閤算符和Line-Low-Pines(LLP)幺正變換方法研究瞭RbCl量子點中彊耦閤磁極化子基態能量的溫度效應。併對RbCl晶體進行數值計算,結果錶明:基態能量隨有效受限彊度、磁場迴鏇頻率和溫度的增加而增加。
채용선성조합산부화Line-Low-Pines(LLP)요정변환방법연구료RbCl양자점중강우합자겁화자기태능량적온도효응。병대RbCl정체진행수치계산,결과표명:기태능량수유효수한강도、자장회선빈솔화온도적증가이증가。
The temperature effect of the strong coupling magnetopolaron’s ground state energy in the RbCl quantum dot has been investigated by using the linear combination operator and the Line-Low-Pines(LLP)unitary methods. The numerical calculations are performed for the RbCl crystal. It is shown that the ground state energy will increase with increasing the effective confinement strength, the cyclotron frequency and the temperature.