论文标题
最小长度对浆果相和自旋轨相互作用的影响
Effects of minimal length on Berry phase and spin-orbit interactions
论文作者
论文摘要
使用扰动方法和近似的一阶研究,研究了广义不确定性原理(GUP)对浆果阶段的影响。在其中,获得的结果扩展到量子环,其中两种类型的自旋轨道相互作用(包括Rashba和Dresselhaus相互作用)可以通过电子感受到。将最终结果与浆果相检测器的准确性进行比较,可以分别从Rashba和Dresselhaus交互中找到GUP参数的上限为$β_{0} <10} <10^{46} $和$β_{0} <10^{51} $。
The effect of Generalized Uncertainty Principle (GUP) on Berry phase is studied using the perturbation approach and up to the first order of approximation. Thereinafter, the obtained results are extended to a quantum ring in which two types of spin-orbit interactions, including Rashba and Dresselhaus interactions, can be felt by electrons. Comparing the final results with the accuracy of Berry phase detectors, one can find an upper bound on GUP parameter as $β_{0}<10^{46}$ and $β_{0}<10^{51}$ from Rashba and Dresselhaus interactions, respectively, in agreement with previous results.
