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Sky Nelson-Isaacs 
Theiss Research, La Jolla, CA 

Introduction:  The basic notion of time moving as a point moving from past to future dominates Western thinking. In a recent paper in Quantum Reports, I showed that wavefunction propagation in spacetime (through the Feynman path integral or the Schrodinger equation) can be rewritten as a recursive Fourier transformation. 

This approach distinguishes between measurable coordinates, which correspond to physical interactions or endpoints, and unmeasurable parameters, which are non-physical. This distinction is illustrated by a hologram, in which the holographic image you see (coordinate) is distinct from the film in the background (parameters). The result is a holistic view of time, in which the basic element of time is not a point but a line between interactions. Treating time as fundamentally holistic allows one to construct theories which connect present with future, i.e. post-select a given end state to experience a meaningful coincidence or synchronicity in the present time. 

Methods: Drawing off two related formalisms—Fourier optics and the Feynman path integral—an equation for wavefunction propagation is presented which reflects the mathematics of holograms. The ontology of this formalism is simple, consisting of spacetime and its Fourier dual. The traditional approach of a spatial wavefunction which is dependent upon the time variable is discarded in favor of a 4-dimensional spacetime distribution (“block multiverse”) which does not evolve. In spite of the static nature of the block multiverse, equations of motion of a system are encoded as-a-whole into its phase profile. Dynamical change is thus possible even though the wave distribution does not evolve.  

Discussion: Bohm sought to develop quantum mechanics into the implicate and explicate order. Bohm’s structure emerges naturally in this formalism. This is unsurprising because Bohm’s favorite metaphor was the hologram and the Fourier transform, which serve as the basis for the formalism presented here. Just as digital images and audio data can be converted into spaceless and timeless representations, respectively, the implicate order described here is without space or time parameter. The “timelessness” and “spacelessness” applies universally and generates fruitful lines of inquiry, such as the retroactive flexibility of histories, as well as the requirement that all physical properties are defined subjectively. 

Bohm, D. (1980). Wholeness and the Implicate Order. Routledge. 

Feynman, R.P. (1948). Space-Time Approach to Non-Relativistic Quantum Mechanics. Rev. Mod. Phys. 20, 367–387. 

Goodman, J.W. Introduction to Fourier Optics, International Editions, Second Edition; McGraw-Hill Book Co.: 1 International Business Park 01-13A/14/15B/15A, Jurong, Singapore, 1996; pp. 55–61  

Nelson-Isaacs, S. (2021). Spacetime Paths as a Whole, Quantum Rep., 3(1), 13-41; https://doi.org/10.3390/quantum3010002 

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Sky Nelson-Isaacs
Sky Nelson-Isaacs

Sky Nelson-Isaacs is a physicist, musician, and author of two books, “Leap to Wholeness: How the World is Programmed to Help Us Grow, Heal, and Adapt,” and “Living in Flow: The Science of Synchronicity and How Your Choices Shape Your World.” Having learned mindfulness practices from a young age and also obtained a masters degree in physics from San Francisco State University, he bridges worlds with his original research on time, space, quantum mechanics, and synchronicity.

Spacetime Holism

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