背景磁场中违反洛伦兹规则的带电狄拉克的卡西米尔效应

IF 4.3 3区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

ACS Applied Electronic Materials Pub Date : 2024-01-27 DOI:10.1093/ptep/ptae016

Ar Rohim, Arista Romadani, Apriadi Salim Adam

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引用次数: 0

摘要

我们研究了洛伦兹违反对背景均匀磁场中带电狄拉克的卡西米尔能和压力的影响。在模型中，洛伦兹违反不仅以强度为参数，还以其方向为参数。我们研究了违反方向的两种情况，即类时间和类空间矢量情况。我们使用 MIT 袋模型的边界条件来表示板块的属性。我们展示了洛伦兹违反和磁场如何影响卡西米尔能的结构及其压力。我们还研究了弱磁场和强磁场情况下的两种不同限制：重质量和轻质量。此外，我们还计算了强磁场与弱磁场对卡西米尔能及其压力的影响比例。我们发现，强磁场增强了卡西米尔能及其压力的大小，其中洛伦兹违反强度参数可以缩放板的距离。

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Casimir effect of Lorentz-violating charged Dirac in background magnetic field

We study the effect of the Lorentz violation on the Casimir energy and pressure of charged Dirac in a background uniform magnetic field. In the model, the Lorentz violation is parameterized not only by the intensity but also by its direction. We investigate two cases of the direction of violation, namely, time-like and space-like vector cases. We use the boundary condition of the MIT bag model to represent the property of the plates. We show how the Lorentz violation and the magnetic field affect the structure of the Casimir energy and its pressure. We also investigate the weak and strong magnetic field cases with two different limits, heavy and light masses. In addition, we compute the ratio of the influence of the strong magnetic field to that of the weak ones for the Casimir energy and its pressure. We find that the strong magnetic field enhances the magnitude of the Casimir energy and its pressure, where the parameter of the intensity of Lorentz violation could scale the plate’s distance.

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来源期刊

ACS Applied Electronic Materials Multiple-

CiteScore

7.20

自引率

4.30%

发文量

567