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Tuesday, October 1, 2019

Quantum Foam Smothers Huge Amounts of Energy--Reprint and Commentary

According to my interpretation of gnostic cosmology, quantum foam emerged as the first material expression after the Fall. In the pre-Fall state, consciousness was immaterial and purely ephemeral. After the Fall, consciousness expressed itself as a slower, denser, and more concrete form. 

Both the Simple Explanation cosmology and the gnostic cosmology speak of the emergence of ordinary matter as arising from the small, uncooperative first expressions of random behavior--i.e. quantum foam. Quantum foam is entirely unpredictable and chaotic. This chaos effectively uses up and partially smothers the infinity of coherent consciousness underlying and preceding the foam, like a blanket thrown over a fire.  The random nature of quantum foam explains "free will" in our material universe, as the quantum randomness forms the platform underlying ordinary matter, occasionally interjecting itself into a material cosmos otherwise rigidly constrained by cause and effect.
This illustration, borrowed from Brian Greene's The Elegant Universe, shows how the appearance of matter transforms from smooth to chaotic the closer you look. Imagine the ordinary, unmagnified, world as the grid at the bottom of the drawing, and that each successive plane represents a closer look at a portion of the plane below.  At the most extreme ultra-magnification, quantum fluctuations have replaced smooth, predictable geometry.
This model of chaos can be used to illustrate the principle of individual free will. As was previously stated in Traits of Units of Consciousness,  most Units of Consciousness perform as expected—they “do their part,” they “work according to plan.” It was also stated that every UC has the free will to fulfill or contradict its responsibilities.

Below you will find a new scientific article that explains quantum foam with a new hypothesis that I find compatible with my cosmologies.


Physicist suggests 'quantum foam' may explain away huge cosmic energy

foam
Credit: CC0 Public Domain
Steven Carlip, a physicist at the University of California, has come up with a theory to explain why empty space seems to be filled with a huge amount of energy—it may be hidden by effects that are canceling it out at the Planck scale. He has published a paper describing his new theory in the journal Physical Review Letters.
Conventional theory suggests that  should be filled with a huge amount of energy—perhaps as much as 10120 more than seemingly exists. Over the years, many theorists have suggested ideas on why this may be—most have tried the obvious approach, trying to figure out a way to make the energy go away. But none have been successful. In this new effort, Carlip suggests that maybe all that energy really is there, but it does not have any ties to the expansion of the universe because its effects are being canceled out by something at the Planck scale.
The new  by Carlip is based very heavily on work done by John Wheeler back in the 1950s—he suggested that at the smallest possible scale, space and time turn into something he called "spacetime foam." He argued that at such a small scale, defining time, length and energy would be subject to the uncertainty principle. Since then, others have taken a serious look at spacetime foam—and some have suggested that if a vacuum were filled with spacetime foam, there would be a lot of energy involved. Others argue that such a scenario would behave like the cosmological constant.
Thus, to explain their ideas, they have sought to find ways to cancel out the energy as a way to make it go away. Carlip suggests instead that in a spacetime foam scenario,  would exist everywhere in a vacuum—but if you took a much closer look, you would find Planck-sized areas that have an equal likelihood of expanding or contracting. And under such a scenario, the patchwork of tiny areas would appear the same as larger areas in the —and they would not expand or contract, which means they would have a zero cosmic constant. He notes that under such a scenario, time would have no intrinsic direction.
More information: S. Carlip. Hiding the Cosmological Constant, Physical Review Letters (2019). DOI: 10.1103/PhysRevLett.123.131302 . On Arxiv: https://arxiv.org/abs/1809.08277
Journal information: Physical Review Letters , arXiv 

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