Effective Mass Model Reduced to Ordinary Mass Using Newton’s, Quantum and Generalized Special Relativity

Nagwa Idriss Ali Ahmed, Mohamed Idriss Ahmed, M. D. Abd-Alla
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引用次数: 1

Abstract

The concept of the effective mass in crystals shows that the electron mass is affected by the crystal field and was experimentally verified. A useful expression for effective mass was obtained. Unfortunately this expression showed that the effective mass vanishes in the ab-sence of the external field. This is in conflict with observations which show that it reduces to the ordinary mass. To cure this defect a new model is developed assuming the existence of vacuum force as verified experimentally as shown by Casimir effect. Using Newton’s second law and the quantum expression of momentum, useful expressions were found. The same expression was found using generalized special relativity. Strikingly the three models reduced to the conventional one in the absence of vacuum, they also reduced to the ordinary electron mass in the absence of all forces.
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利用牛顿、量子和广义狭义相对论将有效质量模型简化为普通质量
晶体中有效质量的概念表明电子质量受晶体场的影响,并得到了实验验证。得到了有效质量的有用表达式。不幸的是,这个表达式表明,有效质量在没有外场的情况下消失。这与观测结果相矛盾,观测结果表明,它会降低到普通质量。为了解决这一缺陷,提出了一种新的模型,假设真空力存在,并通过卡西米尔效应进行了实验验证。利用牛顿第二定律和动量的量子表达式,找到了有用的表达式。用广义狭义相对论也发现了同样的表达式。引人注目的是,在没有真空的情况下,这三个模型被还原为常规模型,在没有所有力的情况下,它们也被还原为普通电子质量。
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