This book presents a new approach to Quantum Gravity developed by the author of the book Shahram Khosravi, Ph.D. that unifies Quantum Physics and General Relativity and the four fundamental forces of nature and provides a new approach to the physics of the dark matter and dark energy. The author can be reached at shahramkhosravi6@yahoo.com.
There is a background of physical characteristics (matter, energy, and particles) and geometry (tempo-spatial points) on which both quantum physics and general relativity heavily rely. I refer to this background as geometro-physical background.
Quantum physics focuses on the probability amplitudes for finding these background physical characteristics at these background tempo-spatial geometrical points. General relativity focuses on the curvatures that these background physical characteristics cause in this background geometry.
I propose that an important key step to the unification of quantum physics and general relativity is to redefine our conception of this geometro-physical background. I’ll introduce a new notion of spacetimematter where these physical characteristics are baked into geometry itself as a new geometrical dimension. I’ll also quantize spacetimematter and introduce Tempo-Spatial-Physical (TSP) quanta. I propose that the quantum behaviors of TSPs are the cause of spacetimematter curvatures. I’ll then present my new general relativity and quantum field equations and show how they provide the first important step in unifying quantum physics and general relativity and the four fundamental forces of nature.
I’ll then take the next important step in unification of these two foundations of physics by probabilitizing general relativity’s geometric world and tempo-spatial-physical geometrizing quantum physics’ probabilistic world.
I’ll dive into the probabilistic world of quantum physics to uncover underlying levels of probability amplitudes and then dive into the tempo-spatial-physical world of general relativity to uncover underlying levels of spacetimematters and their TSPs, curvatures, metrics, and line elements.
I propose that each level of spacetimematter and its TSPs, curvatures, metrics, and line elements form its own level of universe. The Universe is the net effect of these levels of universes. This also means that the matter and energy content of the Universe composes of not only ordinary matter and energy that our ordinary universe contributes but also non-ordinary matter and energy that all levels of universes contribute. I propose that these non-ordinary matter and energy contributions of all levels of universes form what is known as dark matter and dark energy. My approach to quantum gravity provides a new approach to the physics of the dark matter and dark energy.
I’ll then present my new quantum and general relativity field equations and show how these new quantum and general relativity field equations together unify quantum physics and general relativity and the four fundamental forces of nature and provide a new approach to the physics of the dark matter and dark energy. I’ll also use these equations 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 also introduce concepts such as complex masses and negative 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.
There is a background of physical characteristics (matter, energy, and particles) and geometry (tempo-spatial points) on which both quantum physics and general relativity heavily rely. I refer to this background as geometro-physical background.
Quantum physics focuses on the probability amplitudes for finding these background physical characteristics at these background tempo-spatial geometrical points. General relativity focuses on the curvatures that these background physical characteristics cause in this background geometry.
I propose that an important key step to the unification of quantum physics and general relativity is to redefine our conception of this geometro-physical background. I’ll introduce a new notion of spacetimematter where these physical characteristics are baked into geometry itself as a new geometrical dimension. I’ll also quantize spacetimematter and introduce Tempo-Spatial-Physical (TSP) quanta. I propose that the quantum behaviors of TSPs are the cause of spacetimematter curvatures. I’ll then present my new general relativity and quantum field equations and show how they provide the first important step in unifying quantum physics and general relativity and the four fundamental forces of nature.
I’ll then take the next important step in unification of these two foundations of physics by probabilitizing general relativity’s geometric world and tempo-spatial-physical geometrizing quantum physics’ probabilistic world.
I’ll dive into the probabilistic world of quantum physics to uncover underlying levels of probability amplitudes and then dive into the tempo-spatial-physical world of general relativity to uncover underlying levels of spacetimematters and their TSPs, curvatures, metrics, and line elements.
I propose that each level of spacetimematter and its TSPs, curvatures, metrics, and line elements form its own level of universe. The Universe is the net effect of these levels of universes. This also means that the matter and energy content of the Universe composes of not only ordinary matter and energy that our ordinary universe contributes but also non-ordinary matter and energy that all levels of universes contribute. I propose that these non-ordinary matter and energy contributions of all levels of universes form what is known as dark matter and dark energy. My approach to quantum gravity provides a new approach to the physics of the dark matter and dark energy.
I’ll then present my new quantum and general relativity field equations and show how these new quantum and general relativity field equations together unify quantum physics and general relativity and the four fundamental forces of nature and provide a new approach to the physics of the dark matter and dark energy. I’ll also use these equations 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 also introduce concepts such as complex masses and negative 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.
