Abstract

Quantum field theory has emerged from the background of fluctuating non-zero vacuum energy states. Through entanglement it appears energy can be removed from these fluctuations producing negative energy states. To accommodate these phenomena, a theoretical framework of Hilbert Spaces, nth order differential equations, group theory, complex numbers, topology, CPT Theorems, CP symmetry breaking and operators is develop ing. The theoretical constructs can be epitomised in part by De Broglie's formula n(n+1) Periodicity and n(n 1) Compressibility - The Quantum Mechanical Table. The inverted form of the Periodic Table with mass num ber removed - known as The Roberts-Janet Nuclear Periodic Table - is a testament to the empirical work of chemists previously. The one-to-one mapping between these tables merges theoretical and empirical science. From individual elements via molecules to multi-disciplinary science a new era is beginning. Underlying mechanisms of quantum tunnelling, superposition, entanglement, vibronic mixing and decoherence abound. In time such processes could extend to cosmology at the top end of the energy scale down to catalytic and reversible reactions, solubility, electrolysis, biochemical pathways, evolution, bioluminescence, medical and psychological ruminations at the lower end of the energy scale including low temperature physics. Quantum biology and neuroscience in Nature appear fertile ground to consolidate further applications of quantum field theory as it matures while entropy changes, information theory, oscillations between self-assembly and cha os coupled with phase changes overlay multiple layers within the universe at all orders of magnitude. Enter entropic gravity that derives gravity from treating the metric of spacetime as a quantum operator. This uses quantum relative entropy from quantum information theory to link spacetime geometry and matter.

DOI: doi.org/10.63721/25JPQN0137

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