Add to ORKGBased on an observation that the basic mode of a common microwave waveguide is a solution to the Klein-Gordon equation, quantum mechanics is modeled as the wave-function propagated inside a waveguide. The guide width is determined by the rest-energy and the potential energy. Moreover, a geometrical optics model of the propagation illustrates how the width as a function of distance determines the velocity and accelerations of the particle. The model entails the disappearance of action-at-a-distance problem, and that interactions are conveyed via the potential, i.e. by photons
Newtonian mechanics often employs a potential V(x) such that .5m v(x)v(x) + V(x) =E ((1)) where v(x...
The puzzles of quantum mechanics are: 1. what is the medium for the photon and for the electron wave...
In the context of a new analysis of the notebooks of Erwin Schrödinger, the paper deals with the que...
A relativistic quantum-mechanical description of guided waves is given, based on which we present an...
For a long time Scientists thought that all the basic rules like gravity and movements apply to ever...
We describe a connection between quantum mechanics and nonlinear wave equations and highlight a few ...
The de Broglie-Bohm “pilot-wave” theory replaces the paradoxical wave-particle duality of ordinary q...
Technology majors when introduced to quantum concepts, invariably encounter difficulties in the unde...
Since the very first development of Quantum Mechanics there are many scientists who, despite the fac...
suggested that corpuscles of light generate waves in an aethereal medium like a skipping stone gener...
Some two centuries before the quantum revolution, Newton (1) suggested that corpuscles of light gene...
A century after the discovery of quantum mechanics, the meaning of quantum mechanics still remains e...
The formidable problem with double-slit experiments is: if electrons and photons exhibit wave proper...
quantum mechanics was first developed. Quantum mechanics proved very successful in describing what i...
The essence of this theory is that photons are small particles of ponderable mass that travel in set...
Newtonian mechanics often employs a potential V(x) such that .5m v(x)v(x) + V(x) =E ((1)) where v(x...
The puzzles of quantum mechanics are: 1. what is the medium for the photon and for the electron wave...
In the context of a new analysis of the notebooks of Erwin Schrödinger, the paper deals with the que...
A relativistic quantum-mechanical description of guided waves is given, based on which we present an...
For a long time Scientists thought that all the basic rules like gravity and movements apply to ever...
We describe a connection between quantum mechanics and nonlinear wave equations and highlight a few ...
The de Broglie-Bohm “pilot-wave” theory replaces the paradoxical wave-particle duality of ordinary q...
Technology majors when introduced to quantum concepts, invariably encounter difficulties in the unde...
Since the very first development of Quantum Mechanics there are many scientists who, despite the fac...
suggested that corpuscles of light generate waves in an aethereal medium like a skipping stone gener...
Some two centuries before the quantum revolution, Newton (1) suggested that corpuscles of light gene...
A century after the discovery of quantum mechanics, the meaning of quantum mechanics still remains e...
The formidable problem with double-slit experiments is: if electrons and photons exhibit wave proper...
quantum mechanics was first developed. Quantum mechanics proved very successful in describing what i...
The essence of this theory is that photons are small particles of ponderable mass that travel in set...
Newtonian mechanics often employs a potential V(x) such that .5m v(x)v(x) + V(x) =E ((1)) where v(x...
The puzzles of quantum mechanics are: 1. what is the medium for the photon and for the electron wave...
In the context of a new analysis of the notebooks of Erwin Schrödinger, the paper deals with the que...