This article presents a new approach to unify Quantum Mechanics and General Relativity and the four fundamental forces of nature and to the physics of the dark matter and dark energy and a new resolution of the black hole information paradox. The author can be reached at shahramkhosravi6@yahoo.com.
There is a background of matter/radiation/electric charge/color charge and geometry on which both quantum mechanics and general relativity rely. Quantum mechanics focuses on measuring the state functions of this background matter (e.g. in the form of a particle such as an electron), radiation, electric charge, and color charge within this background geometry. General relativity on the other hand focuses on measuring the curvatures that this background matter (e.g. in the form of a cosmological object such as a star), radiation, and electric charge causes within this background geometry.
An important key step towards the unification of quantum mechanics and general relativity is to redefine the relationship between matter/radiation/electric charge/color charge and geometry. I’ll introduce a new notion of spacetimematterradiationcharge where matter, radiation, electric charge, and color charge are baked into geometry itself as new geometrical dimensions.
State functions are no longer the state functions of locations of matter, radiation, electric charge, and color charge within background spacetime geometry. They are instead the state functions of space, time, matter, radiation, electric charge, and color charge themselves.
I’ll show that these geometrical state functions manifest themselves in the form of geometrical stress tensor components that cause curvatures in spacetimematterradiationcharge.
I’ll then quantize physical constants where each physical constant quantum is associated with a specific value of a physical constant quantum number. Each portion of geometry can be in any of these possible physical constant quantum states. The portions of geometry with the same physical constant quantum state constitute universes of their own. The Universe is structurally multi-universe where all its constituent universes share the same geometry.
I’ll then present my new quantum and general relativity field equations that together unify quantum mechanics and general relativity and the four fundamental forces of nature.
My approach to quantum gravity shows that the matter, radiation, electric charge, and color charge content of the Universe is composed of not only ordinary matter, radiation, electric charge, and color charge that portions of the spacetimematterradiationcharge with the zero value of physical constant quantum number contribute but also non-ordinary matter, radiation, electric charge, and color charge that portions of the spacetimematterradiationcharge with non-zero values of physical constant quantum number contribute. I propose that these non-ordinary matter, radiation, electric charge, and color charge contributions constitute what is known as the 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 show the classical limit at which my new quantum and general relativity field equations recover the classical Schrodinger and general relativity field equations and 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 spacetimematterradiationcharge regions as well as black holes.
I’ll use actual cosmological data and a simple model to derive the physical constants associated with the physical constant quantum number one and show that they are different from ordinary physical constants.
I’ll also provide quantum mechanism for the main characteristics of black holes and show how my new approach to quantum gravity resolves the black hole information paradox.
There is a background of matter/radiation/electric charge/color charge and geometry on which both quantum mechanics and general relativity rely. Quantum mechanics focuses on measuring the state functions of this background matter (e.g. in the form of a particle such as an electron), radiation, electric charge, and color charge within this background geometry. General relativity on the other hand focuses on measuring the curvatures that this background matter (e.g. in the form of a cosmological object such as a star), radiation, and electric charge causes within this background geometry.
An important key step towards the unification of quantum mechanics and general relativity is to redefine the relationship between matter/radiation/electric charge/color charge and geometry. I’ll introduce a new notion of spacetimematterradiationcharge where matter, radiation, electric charge, and color charge are baked into geometry itself as new geometrical dimensions.
State functions are no longer the state functions of locations of matter, radiation, electric charge, and color charge within background spacetime geometry. They are instead the state functions of space, time, matter, radiation, electric charge, and color charge themselves.
I’ll show that these geometrical state functions manifest themselves in the form of geometrical stress tensor components that cause curvatures in spacetimematterradiationcharge.
I’ll then quantize physical constants where each physical constant quantum is associated with a specific value of a physical constant quantum number. Each portion of geometry can be in any of these possible physical constant quantum states. The portions of geometry with the same physical constant quantum state constitute universes of their own. The Universe is structurally multi-universe where all its constituent universes share the same geometry.
I’ll then present my new quantum and general relativity field equations that together unify quantum mechanics and general relativity and the four fundamental forces of nature.
My approach to quantum gravity shows that the matter, radiation, electric charge, and color charge content of the Universe is composed of not only ordinary matter, radiation, electric charge, and color charge that portions of the spacetimematterradiationcharge with the zero value of physical constant quantum number contribute but also non-ordinary matter, radiation, electric charge, and color charge that portions of the spacetimematterradiationcharge with non-zero values of physical constant quantum number contribute. I propose that these non-ordinary matter, radiation, electric charge, and color charge contributions constitute what is known as the 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 show the classical limit at which my new quantum and general relativity field equations recover the classical Schrodinger and general relativity field equations and 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 spacetimematterradiationcharge regions as well as black holes.
I’ll use actual cosmological data and a simple model to derive the physical constants associated with the physical constant quantum number one and show that they are different from ordinary physical constants.
I’ll also provide quantum mechanism for the main characteristics of black holes and show how my new approach to quantum gravity resolves the black hole information paradox.