Add to ORKGAn effective angular momentum quantization condition of the form $mvr=n\hbar(m/m_F)$ is used to obtain a Bohr-like model of Hydrogen-type atoms and a modified Schr\"{o}dinger equation. Newton's constant, $G$, of Gravitation gets explicitly involved through the fundamental mass $m_F$ as defined in the sequel. This non-relativistic formalism may be looked upon as a ``testing ground'' for the more general synthesis of the gravity and the quantum
The twentieth century saw two fundamental revolutions in physics—relativity and quantum. Daily use o...
It is shown explicitly that in the framework of Bohmian quantum gravity, the equations of motion of ...
The force of gravity is the result of the creation of matter within vacuum space by the structure of...
We deduce the quantization of the atomic orbit for the hydrogen's atom model proposed by Bohr withou...
In this paper we investigate a possible energy scale dependence of the quantization rules and in par...
Motivation for quantizing gravity comes from the remarkable success of the quantum theories of the o...
We argue that not all the theoretical content of the Bohr model has been captured by the “definitive...
A Newtonian approach to quantum gravity is studied. At least for weak gravitational fields it should...
We deduce the quantization of Bohr's hydrogen's atomic orbit without using his hypothesis of angular...
A case study of quantum mechanics is investigated in the framework of the philosophical opposition “...
A case study of quantum mechanics is investigated in the framework of the philosophical opposition “...
AbstractA quantitatively verifiable expression for the gravitational constant is derived in terms of...
A case study of quantum mechanics is investigated in the framework of the philosophical opposition “...
A relativistically invariant representation of the generalized momentum of a particle in an external...
We present a new approach to quantum gravity starting from Feynman's formulation for the simplest ex...
The twentieth century saw two fundamental revolutions in physics—relativity and quantum. Daily use o...
It is shown explicitly that in the framework of Bohmian quantum gravity, the equations of motion of ...
The force of gravity is the result of the creation of matter within vacuum space by the structure of...
We deduce the quantization of the atomic orbit for the hydrogen's atom model proposed by Bohr withou...
In this paper we investigate a possible energy scale dependence of the quantization rules and in par...
Motivation for quantizing gravity comes from the remarkable success of the quantum theories of the o...
We argue that not all the theoretical content of the Bohr model has been captured by the “definitive...
A Newtonian approach to quantum gravity is studied. At least for weak gravitational fields it should...
We deduce the quantization of Bohr's hydrogen's atomic orbit without using his hypothesis of angular...
A case study of quantum mechanics is investigated in the framework of the philosophical opposition “...
A case study of quantum mechanics is investigated in the framework of the philosophical opposition “...
AbstractA quantitatively verifiable expression for the gravitational constant is derived in terms of...
A case study of quantum mechanics is investigated in the framework of the philosophical opposition “...
A relativistically invariant representation of the generalized momentum of a particle in an external...
We present a new approach to quantum gravity starting from Feynman's formulation for the simplest ex...
The twentieth century saw two fundamental revolutions in physics—relativity and quantum. Daily use o...
It is shown explicitly that in the framework of Bohmian quantum gravity, the equations of motion of ...
The force of gravity is the result of the creation of matter within vacuum space by the structure of...