Research and Discussion of Quantum Theory

Zhiming Huang
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Abstract

Quantum information technology mainly includes quantum communication, quantum radar, quantum computer these three aspects, in recent years, rapid development, many countries invested heavily in development. The awarding of the Nobel Prize in Physics in 2022 to three scientists for their work in quantum informatics has further stimulated people's interest in quantum theory, which has been studied and discussed. This paper not only reviews the historical situation, but also thinks and innovates in theory. The main contents of this paper are as follows: It is pointed out that there are fundamental contradictions between relativity and quantum mechanics; The wave function, quantum statistics and uncertainty principle are discussed in detail. The hidden variable theory is reviewed and the Bell inequality is discussed. The Aspect two-photon experiment was analyzed. The rationality of Bohm experiment scheme is discussed. The development of Bell type experiment is discussed. It is pointed out that the entangled state is not acting at a distance but propagating faster than the speed of light. Reviews the Copenhagen interpretation of quantum mechanics; Quantum communication and Wootters theorem are discussed. etc. This paper holds that quantum mechanics has been finalized from 1926 to 1928, and its basic content has not changed much. But for some of the accusations, it is necessary to answer them theoretically. For example, we believe that the Copenhagen interpretation fundamentally changes our understanding of nature and marks a profound revolution in physics. And no other theory has since emerged that has such a profound understanding and wide application of microscopic phenomena as this interpretation. Another example is Bohm's two-particle correlation spin scheme in quantum entanglement experiments, which has been proved to be effective in a series of experiments, which is an important contribution in Bohm's life. This paper holds that the so-called quantum field theory is a failure, and the original quantum mechanics should still be advocated today. Current theoretical research should pay great attention to quantum entangled states, because its nature is still unclear. Understanding this "first mystery of the physical world" not only has scientific significance, but also has great philosophical significance for understanding the universe.
量子理论的研究与讨论
量子信息技术主要包括量子通信、量子雷达、量子计算机这三个方面,近年来发展迅速,许多国家投入巨资发展。2022年诺贝尔物理学奖授予三位科学家,以表彰他们在量子信息学方面的工作,这进一步激发了人们对量子理论的兴趣,量子理论已经得到了研究和讨论。本文既对历史现状进行了回顾,又在理论上进行了思考和创新。本文的主要内容如下:指出相对论与量子力学之间存在着根本性的矛盾;详细讨论了波函数、量子统计和测不准原理。回顾了隐变量理论,讨论了贝尔不等式。对Aspect双光子实验进行了分析。讨论了玻姆实验方案的合理性。讨论了贝尔式实验的发展。指出纠缠态不是作用于一定距离,而是以比光速更快的速度传播。回顾量子力学的哥本哈根解释;讨论了量子通信和wooters定理。等。本文认为,量子力学从1926年到1928年已经定稿,其基本内容没有太大变化。但对于其中的一些指责,有必要从理论上加以回答。例如,我们认为哥本哈根诠释从根本上改变了我们对自然的理解,标志着物理学的一场深刻革命。从那以后,没有其他理论像这种解释那样对微观现象有如此深刻的理解和广泛的应用。又如玻姆在量子纠缠实验中提出的双粒子相关自旋方案,在一系列实验中被证明是有效的,这是玻姆一生的重要贡献。本文认为所谓的量子场论是失败的,原始的量子力学在今天仍然应该被提倡。由于量子纠缠态的性质尚不清楚,目前的理论研究应重视量子纠缠态。了解这个“物质世界的第一奥秘”,不仅具有科学意义,而且对于认识宇宙也具有重大的哲学意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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