Perspective on an Emerging Frontier of Nanoscience Opened up by Dressed Photon Studies

Hirofumi Sakuma, Izumi Ojima, Motoichi Ohtsu
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Abstract

The core parts of developing dressed photon (DP) research that require advanced knowledge of highly mathematical quantum field theory and their potentially important impacts on the wide spectrum of long-term scientific activities in general, not necessarily restricted to those in the natural science sector, are succinctly explained in this article. Although a considerable number of remarkable technological achievements in the field of nanophotonics have been attained by utilizing DP phenomena, from the theoretical viewpoint, they remain enigmatic, as in the case of dark matter and energy in cosmology. Under such circumstances, an intriguing working hypothesis (WH) for DPs is proposed by the authors of this article through a combination of Ojima’s micro-macro duality theory and the Greenberg-Robinson theorem, claiming that the space-like momentum contribution is an inevitable element for quantum field interactions to occur. Note that, as the Schrödinger’s cat thought experiment clearly shows, the widespread common quantum mechanics knowledge is incapable of explaining how the invisible quantum world is connected to our familiar visible classical world. In the above-mentioned WH, the main reason why we cannot explain either DPs or dark entities in cosmology is shown to have roots in the fact that the prevailing theories have not revealed an important role of spacelike momentum in connecting the quantum and classical worlds. Our new WH further shows that the entire universe is connected by an instantaneous spacelike entropic spin network, as in the case of quantum spin entanglement explained in mainstream physics. Since such a network may have a close relation with the nonlocal consciousness field, which seems to be the final frontier of physics, our perspective on such a possibility is briefly given in the final section of this paper.
光子研究开辟纳米科学新前沿的展望
本文简要地解释了发展衣光子(DP)研究的核心部分,这些研究需要高度数学量子场论的先进知识,以及它们对广泛的长期科学活动的潜在重要影响,不一定局限于自然科学领域。虽然利用DP现象在纳米光子学领域取得了相当多的显著技术成就,但从理论的角度来看,它们仍然是谜,就像宇宙学中的暗物质和能量一样。在这种情况下,本文作者通过结合Ojima的微观-宏观对偶理论和Greenberg-Robinson定理,提出了一个有趣的DPs工作假设(WH),声称类空间动量贡献是量子场相互作用发生的不可避免的因素。请注意,正如Schrödinger的猫思想实验清楚地表明,广泛的普通量子力学知识无法解释不可见的量子世界是如何与我们熟悉的可见的经典世界联系在一起的。在上述WH中,我们无法解释DPs或宇宙学中的暗实体的主要原因是,主流理论没有揭示类空间动量在连接量子世界和经典世界方面的重要作用。我们的新WH进一步表明,整个宇宙是由一个瞬时的类空间熵自旋网络连接起来的,就像主流物理学中解释的量子自旋纠缠一样。由于这种网络可能与非局部意识场有着密切的关系,这似乎是物理学的最后前沿,我们对这种可能性的看法将在本文的最后一节中简要给出。
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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