How an emergent cosmology of a nonlocally unified, meaningfully in-formed and holographically manifested Universe can underpin and frame the biological embodiment of quantum entanglement

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2023-10-21 DOI:10.1016/j.pbiomolbio.2023.10.001
Jude Currivan
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Abstract

With a Nobel Prize for Physics widely viewed as only given for ‘settled’ science, the award then essentially accepts the validity of universal nonlocality. Other key discoveries and insights in recent years are also progressively pointing to the appearance of our Universe, its energy-matter and space-time, as not being foundational but emerging from deeper, discarnate realms of causation. as digitized and meaningful, in-formation, its manifestation pixelated at the so-named Planck scale of existence. Extending from studies of black holes to the entire Universe, a growing number of cosmologists have also developed the so-named holographic principle, to model the four-dimensional appearance of our Universe (three dimensions of space and one of time) as a holographic projection of its two- dimensional boundary. In framing the emergent cosmology of a nonlocally unified, meaningfully in-formed and holographically manifested Universe, an expansion of the three universal Laws of Thermodynamics to three Laws of Information, or Infodynamics also points the way to reconciling Quantum Theory that describes energy-matter and Relativity Theory that describes space-time and offers too an understanding of how the lifecycle of our Universe flows from its first moment until its last. Treating gravity as an emergent consequence of the in-formational and holographic structure of space- time and describing it as the consequence of the intropy associated with the positions in space-time of massive bodies, also points to the findings of the loss of phenotype identity in zero gravity and the role between gravity and cellular identity and the emergence of symbiogenesis.

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一个非局部统一、有意义地形成和全息显示的宇宙的新兴宇宙学如何支撑和构建量子纠缠的生物学体现。
诺贝尔物理学奖被广泛认为只授予“固定的”科学,因此该奖项基本上接受了普遍非局部性的有效性。近年来的其他关键发现和见解也逐渐指出,我们的宇宙、其能量物质和时空的出现并不是基础性的,而是从更深层次的因果关系领域中出现的。由于数字化和有意义,在形成过程中,其表现形式以所谓的普朗克存在尺度像素化。从对黑洞的研究扩展到整个宇宙,越来越多的宇宙学家也发展出了所谓的全息原理,将我们宇宙的四维外观(三维空间和一维时间)建模为其二维边界的全息投影。在构建一个非局部统一、有意义地形成和全息显示的宇宙的新兴宇宙学时,将热力学的三个普遍定律扩展为信息的三个定律,或者Infodynamics也指出了调和描述能量物质的量子理论和描述时空的相对论的方法,并提供了对宇宙生命周期如何从最初时刻到最后时刻流动的理解。将重力视为时空形成和全息结构的一个新兴结果,并将其描述为与大质量物体时空位置相关的内含子的结果,还指出了在零重力下表型同一性丧失的发现,以及重力和细胞同一性之间的作用和共生体的出现。
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CiteScore
7.20
自引率
4.30%
发文量
567
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