Effects of temperature on ground state binding energy of the strong coupling magnetopolaron in RbCl parabolic quantum dots

Cai Chun-Yu; Zhao Cui-Lan; Xiao Jing-Lin

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Effects of temperature on ground state binding energy of the strong coupling magnetopolaron in RbCl parabolic quantum dots

机译：温度对RbCl抛物线量子点中强耦合磁极子的基态结合能的影响

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The external fields which are introduced during the formation of nanostructures, can trap particles and manipulate their quantum states. The effects of temperature on the strong coupling magnetopolarona€?s ground state binding energy (MGSBE), have been investigated by employing Lee-Low-Pines unitary transformation (LLPUT) and linear combination operation (LCO) methods. Numerical results, performed in the RbCl parabolic quantum dot (QD), show that the MGSBE increases with the increase of effective confinement strength (ECS), cyclotron frequency (CF) of the magnetic field and temperature.

机译：外部领域在纳米结构的形成过程中引入的，可以捕获颗粒并操纵它们的量子态温度对强力的影响耦合磁极极化子的基态结合能（MGSBE）通过使用Lee-Low-Pines ary变换（LLPUT）和线性组合运算（LCO）方法。数值结果，在RbCl抛物线量子点（QD）表明，MGSBE随着有效约束强度（ECS），回旋加速器频率（CF）的增加磁场和温度。

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《Indian Journal of Pure & Applied Physics》 |2016年第1期|共4页
作者
Cai Chun-Yu; Zhao Cui-Lan; Xiao Jing-Lin;
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1. Effects of temperature on ground state binding energy of the strong coupling magnetopolaron in RbCl parabolic quantum dots [J] . Cai Chun-Yu, Zhao Cui-Lan, Xiao Jing-Lin Indian Journal of Pure & Applied Physics . 2016,第1期

机译：温度对RbCl抛物线量子点中强耦合磁极子的基态结合能的影响
2. Effects of Temperature on First-Excited-State Energy of the Strong Coupling Magnetopolaron in 2D RbCl Parabolic Quantum Dots [J] . Cai Chun-Yu, Zhao Cui-Lan, Xiao Jing-Lin Journal of Low Temperature Physics . 2015,第3a4期

机译：温度对二维RbCl抛物线量子点中强耦合磁极化子的第一激发态能量的影响
3. Effects of Temperature on First-Excited-State Energy of the Strong Coupling Magnetopolaron in 2D RbCl Parabolic Quantum Dots [J] . Chun-Yu Cai, Cui-Lan Zhao, Jing-Lin Xiao Journal of Low Temperature Physics . 2015,第3a4期

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Effects of temperature on ground state binding energy of the strong coupling magnetopolaron in RbCl parabolic quantum dots

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