Speaker
shahram khosravi
(Texas A&M University)
Description
Spacetimematter is a five dimensional geometry where matter is baked into geometry as a new dimension. Every event point of spacetimematter follows the uncertainty principle, which limits the accuracy of the measurement of its space, time, and matter coordinates turning it into a Space-Time-Matter (STM) geometrical quantum with space, time, and matter edges. State functions of STMs curve spacetimematter. I’ll then deep dive into the probabilistic world of quantum mechanics to uncover lower and higher levels of state functions and then deep dive into the geometrical world of general relativity to uncover lower and higher levels of geometries or spacetimematters and their STMs, curvatures, and metrics. Let me use an example to introduce state function levels. Imagine you’re having the following conversation with a friend. “Are you sure about that?” he asks. “I’m 30% sure” you reply. “How sure are you about that 30%?” he replies back. Your and his replies are at two different levels. Your reply is at the level of probability (or state function) and his reply is at a higher level, i.e. at the level of probability of probability (or state function of state function). I refer to your level as the first level of state functions and his level as the second level of state functions. The overall or combined state function in this case must take state functions of both levels into account. Obviously, other levels of state functions, e.g. third, fourth, fifth, etc. can also be introduced. Every level of geometry and its STMs, curvatures, metric and state functions form a universe of its own. The Universe is fundamentally multi-universe.This has a significant consequence, i.e., the matter and energy content of the Universe is composed of not only ordinary matter and energy that the zeroth level of universe (our ordinary universe) contributes but also non-ordinary matter and energy that non-zeroth levels of universes contribute. I propose that these non-ordinary matter and energy contributions of non-zeroth levels of universes form what is known as the dark matter and dark energy. My approach to quantum gravity therefore provides a new approach to the physics of the dark matter and dark energy. Every object in the Universe is a cluster of entangled STMs from multiple levels of universes. The state function of an object is an entanglement of state functions of its constituent STMs from multiple levels of universes. Therefore, every object is in a multi-universe entangled state function.The metric tensor components due to every object are the entanglement of metric tensor component state functions of its constituent STMs from multiple levels of universes. Therefore, the metric tensor components due to every object are multi-universe entangled metric tensor component state functions. I’ll then present my new quantum and general relativity field equations for each level of universe which together unify quantum mechanics and general relativity and the four fundamental forces of nature and provide a new approach to the physics of dark matter and dark energy. I’ll show the classical limit at which my new quantum field equation recovers the classical Schrodinger equation. I’ll then use my approach to quantum gravity to derive Hawking entropy and temperature, to add higher order corrections to them, and to extend them to non-black hole spacetimematter regions in addition to black holes. I’ll use actual cosmological data and the physical constants (e.g. light speed, Planck constant, Planck length, Planck mass, Planck time, etc.) of the zeroth level of universe (i.e. the “ordinary” universe which consists of “ordinary” space, time, and matter dimensions) to derive the physical constants (e.g. light speed, Planck constant, Planck length, Planck mass, Planck time, etc.) of the first level of universe, which consists of “non-ordinary” space, time, and matter dimensions. This will show that the physical constants of the first level of universe are different from their counterparts in the zeroth level of universe. For instance, this will show that gravity is negative in the first level of universe. I’ll also introduce concepts such as complex and negative masses and gravity and geometrical quantum tunneling among multiple levels of universes and provide quantum mechanism for physical phenomena such as black holes, dark matter, dark energy and the accelerating expansion of the Universe. I’ll also show how my new approach to quantum gravity resolves the black hole information paradox.
Primary author
shahram khosravi
(Texas A&M University)
