Stéphane Maes scite author profile

We start from a hypothetical multi-fold universe U_MF, where the propagation of everything is slower or equal to ‎the speed of light and where entanglement extends the set of paths available to Path Integrals. This multifold ‎mechanism enables EPR (Einstein-Podolsky-Rosen) “spooky actions at distance” to result from local interactions ‎in the resulting folds. It produces gravity-like attractive effective potentials in the spacetime, between entangled ‎entities, that are caused by the curvature of the folds. When quantized, multi-folds correspond to gravitons and ‎they are enablers of EPR entanglement. Gravity emerges non-perturbative and covariant from EPR entanglement ‎between virtual particles surrounding an entity. In U_MF, we encounter mechanisms that predict gravity fluctuations ‎when entanglement is present, including in macroscopic entanglements. Besides providing a new perspective on ‎quantum gravity, when added to the Standard Model as (SMG), with non-negligible affects at its scales, and to the ‎Standard Cosmology, U_MF can contribute explanations of several open questions and challenges. It also clarifies ‎some relationships and challenges met by other quantum gravity models and Theories of Everything. It leads to ‎suggestions for these works. We also reconstruct the spacetime of U_MF, starting from the random walks of particles ‎in an early spacetime. U_MF now appears as a noncommutative, discrete, yet Lorentz symmetric, spacetime that ‎behaves roughly 2-Dimensional at Planck scales, when it is a graph of microscopic Planck size black holes on a ‎random walk fractal structure left by particles that can also appear as microscopic black holes. Of course, at larger ‎scales, spacetime appears 4-D, where we are able to explain curvature and recover Einstein’s General Relativity. We ‎also discover an entanglement gravity-like contributions and massive gravity at very small scales. This is ‎remarkable considering that no Hilbert Einstein action, or variations expressing area invariance, were introduced. ‎Our model also explains why semi classical approaches can work till way smaller scale than usually expected and ‎present a new view on an Ultimate Unification of all forces, at very small scales. We also explore opportunities for ‎falsifiability and validation of our model, as well as ideas for futuristic applications, that may be worth considering, ‎if U_MF was a suitable model for our universe U_real.‎

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Quantum Gravity Emergence from Entanglement in a Multi-Fold Universe

Maes¹

2020

Preprint

217

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We start from a hypothetical multi-fold universe U_{MF}}, where the propagation of everything is slower or equal to the speed of light and where entanglement extends the set of paths available to Path Integrals. This multi-fold mechanism enables EPR (Einstein-Podolsky-Rosen) “spooky actions at distance” to result from local interactions in the resulting folds. It produces gravity-like attractive effective potentials in the spacetime, between entangled entities, that are caused by the curvature of the folds. When quantized, multi-folds correspond to gravitons and they are enablers of EPR entanglement. Gravity emerges non-perturbative and covariant from EPR entanglement between virtual particles surrounding an entity.In U_{MF}, we encounter mechanisms that predict gravity fluctuations when entanglement is present, including in macroscopic entanglements. Besides providing a new perspective on quantum gravity, when added to the Standard Model and Standard Cosmology, U_{MF} can contribute explanations of several open questions and challenges. It also clarifies some relationships and challenges met by other quantum gravity models and Theories of Everything. It leads to suggestions for these works.We also reconstruct the spacetime of U_{MF}, starting from the random walks of particles in an early spacetime. U_{MF} now appears as a noncommutative, discrete, yet Lorentz symmetric, spacetime that behaves roughly 2-Dimensional at Planck scales, when it is a graph of microscopic Planck size black holes on a random walk fractal structure left by particles that can also appear as also microscopic black holes. Of course, at larger scales, spacetime appears 4-D, where we are able to explain curvature and recover Einstein’s General Relativity. We also discover an entanglement gravity-like contributions and massive gravity at very small scales. This is remarkable considering that no Hilbert Einstein action, or variations expressing area invariance, were introduced. Our model also explains why semi classical approaches can work till way smaller scale than usually expected and present a new view on an Ultimate Unification of all forces, at very small scales.We also explore opportunities for falsifiability and validation of our model, as well as ideas for futuristic applications that may be worth considering, if U_{MF} was a suitable model for our universe U_{real}.

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A Nonlinear Squeezing of the Continuous Wavelet Transform Based on Auditory Nerve Models

Daubechies¹,

Maes

2017

169

160

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Current Review all Publications around the Multi-fold universe

Maes¹

2020

Preprint

109

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Shmaes-Physics - Site Navigation - Web Site Tracking all Publications around the Multi-fold universe and "Modeling Gravity As Emergent from the EPR Paradox in Quantum Mechanics". It relates to paper https://vixra.org/pdf/2006.0088v1.pdf and all follow up and updated publications and results. This is a October 11, 2020 snapshot of the content. The main message is: Gravity is Entanglement and Entanglement is Gravity and Everything in the Standard Model with Gravity (SM_G) results from it. Superstrings, supersymmetry and most conventional GUTs and TOEs are not correctly modeling our universe (https://shmaesphysics.wordpress.com/2020/09/20/latest-highlights-and-results-from-multi-fold-models/).For the rest, most of non-problematic conventional Physics is not affected other than i) Gravity is explained, Entanglement creates gravity between entangled parties (under correct conditions) iii) spacetime at very small scale is defined (discrete, concretized by random walk, Lorentz invariant and non-commutative).

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Circular Arguments in String and Superstring Theory from a Multi-fold Universe Perspective

Maes¹

2022

Preprint

105

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Following our derivation of multi-fold models, we revisited the main aspects and claims of self-consistencies of strings and superstrings. Rather than focusing on their relationship to multi-fold universes, we used our lessons learned to show how many claims or results rely on circular arguments coming from the resonance dual model: many consistent results are derived from this model rather than proofs of self-consistency. The previously shown incompatibility between the standard model and superstrings if quantum gravity is asymptotically stable remains standing post analysis of superstrings self-consistency claims. Its applicability to the real universe repositions the role of superstrings and its derived conjectures and models. No matter what, it demonstrates that claims of self-consistency are not validation of the theory as model of the real universe: experimental validations or invalidations are required, as many have argued before.

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Stéphane Maes

Quantum Gravity Emergence from Entanglement in a Multi-Fold Universe

Quantum Gravity Emergence from Entanglement in a Multi-Fold Universe

A Nonlinear Squeezing of the Continuous Wavelet Transform Based on Auditory Nerve Models

Current Review all Publications around the Multi-fold universe

Circular Arguments in String and Superstring Theory from a Multi-fold Universe Perspective

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