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| viXra.org > Quantum Gravity and String Theory > viXra:2203.0174 |
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Quantum Gravity and String Theory |
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Authors: Alireza Jamali
There is no formal difference between particles and black holes. This formal similarity lies in the intersection of gravity and quantum theory; quantum gravity. Motivated by this similarity, 'wave-black hole duality' is proposed, which requires having a proper energy-momentum tensor of spacetime itself. Such a tensor is then found as a consequence of 'principle of minimum gravitational potential'; a principle that corrects the Schwarzschild metric and predicts extra periods in orbits of the planets. In search of the equation that governs changes of observables of spacetime, a novel Hamiltonian dynamics of a Pseudo-Riemannian manifold based on a vector Hamiltonian is adumbrated. The new Hamiltonian dynamics is then seen to be characterized by a new 'tensor bracket' which enables one to finally find the analogue of Heisenberg equation for a 'tensor observable' of spacetime.
Comments: 14 Pages. Essay written for the Gravity Research Foundation 2022 Awards for Essays on Gravitation
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[v1] 2022-03-30 17:17:48
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