Jack Sarfatti Bohm Pilot Wave Post-Quantum Theory Second Draft

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David Bohm’s 1952 pilot-wave/hidden-variable (aka “beable”) interpretation of quantum theory is generally misunderstood by quantum theorists. It has undergone a major revolution in recent times by Antony Valentini and Roderick Sutherland. Valentini has shown that the Born probability rule and its consequent no entanglement signaling restriction is not fundamental. Sutherland has shown how Yakir Aharonov’s retrocausal “weak measurement” technique applies in the Lagrangian framework to give a relativistically covariant post-quantum theory in which there is two-way action-reaction between the qubit pilot waves and their be-ables (e.g. classical particles and classical local gauge fields) without the need for configuration space for many-particle entanglement. Indeed, the no-signaling restriction and the Born probability rule comes from the lack of direct back-reaction of beables on their pilot waves. This is very much like removing the back-reaction of matter on spacetime geometry to eliminate gravity as curvature. The post-quantum back-reaction corresponds to computation around closed timelike curves in which P = NP with profound implications for quantum cryptography code breaking. We expect Prigogine pumped open dissipative structures with Frohlich macro-quantum coherence to be post-quantum systems.

http://arxiv.org/abs/quant-ph/0203049v2

https://www.researchgate.net/.../277561269_Lagrangian...
http://quanta.ws/ojs/index.php/quanta/article/view/14

https://en.wikipedia.org/wiki/P_versus_NP_problem

https://en.wikipedia.org/wiki/Hypercomputation

http://phys.org/.../2008-11-time-traveling-affect-quantum...

"Fröhlich proposed a theory of coherent excitations in biological systems known as Fröhlich coherence. A system that attains this state of coherence is known as a Fröhlich condensate.".[9][10][11]
Long Range Coherence and Energy Storage in Biological Systems – H. Frohlich, Long Range Coherence and Energy Storage in Biological Systems, Int. J. Quantum Chem., v.II, 641-649 (1968)
Jump up ^ Coherent Excitations in Biological Systems – Herbert Fröhlich and F. Kremer Coherent Excitations in Biological Systems (Springer-Verlag, 1983) ISBN 978-3-642-69186-7
Jump up ^ Biological Coherence and Response to External Stimuli – Herbert Fröhlich, editor Biological Coherence and Response to External Stimuli(Springer, 1988) ISBN 978-0-387-18739-6
https://en.wikipedia.org/wiki/Herbert_Fröhlich
"A dissipative structure is characterized by the spontaneous appearance of symmetry breaking (anisotropy) and the formation of complex, sometimes chaotic, structures where interacting particles exhibit long range correlations. The term dissipative structure was coined by Russian-Belgian physical chemist Ilya Prigogine, who was awarded the Nobel Prize in Chemistry in 1977 for his pioneering work on these structures. The dissipative structures considered by Prigogine have dynamical régimes that can be regarded as thermodynamically steady states, and sometimes at least can be described by suitable extremal principles in non-equilibrium thermodynamics.” https://en.wikipedia.org/wiki/Dissipative_system