We investigate the possibility that the amplitude of quantum wave can have a deeper physical meaning other than the probabilistic interpretation base on Born’s postulate. We find that the probabilistic nature of a quantum system can be explained if matter has fluctuations in space and time. The basic properties of a zero spin bosonic field (e.g., Schrödinger’s equation, Klein-Gordon equation, probability density, second quantization) are derived. In addition, the properties of this system with fluctuations in space and time can be applied to explain the wave packet collapse in quantum measurements
We compare and contrast two distinct approaches to understanding the Born rule in de Broglie-Bohm pi...
Early in the development of quantum theory Bohr introduced what came to be called the Copenhagen int...
What sort of entities are electrons, photons and atoms given their wave-like and particle-like prope...
We investigate the possibility that the amplitude of quantum wave can have a deeper physical meaning...
Dedicated to the memory of J. S. Bell. Abstract. The quantum formalism is a \measurement " form...
The meaning of the wave function and its evolution are investigated. First, we argue that the wave f...
Dedicated to the memory of J. S. Bell. Abstract. The quantum formalism is a “measurement ” formalism...
The quantum field of a single particle is expressed as the sum of the particle's ordinary wave funct...
What sort of entities are electrons, photons and atoms given their wave-like and particle-like prope...
The idea that wave-function collapse is a physical process stems from a misunderstanding of probabil...
The basic strategy underlying models of spontaneous wave function collapse (collapse models) is to m...
This is the first single volume about the collapse theories of quantum mechanics, which is becoming ...
It is argued (Part A) that quantum mechanics can be derived as a principle-based dynamical framework...
The quantum measurement problems are revisited from a new perspective. One of the main ideas of th...
We account for the origin of the laws of quantum probabilities in the de Broglie-Bohm (pilot wave) f...
We compare and contrast two distinct approaches to understanding the Born rule in de Broglie-Bohm pi...
Early in the development of quantum theory Bohr introduced what came to be called the Copenhagen int...
What sort of entities are electrons, photons and atoms given their wave-like and particle-like prope...
We investigate the possibility that the amplitude of quantum wave can have a deeper physical meaning...
Dedicated to the memory of J. S. Bell. Abstract. The quantum formalism is a \measurement " form...
The meaning of the wave function and its evolution are investigated. First, we argue that the wave f...
Dedicated to the memory of J. S. Bell. Abstract. The quantum formalism is a “measurement ” formalism...
The quantum field of a single particle is expressed as the sum of the particle's ordinary wave funct...
What sort of entities are electrons, photons and atoms given their wave-like and particle-like prope...
The idea that wave-function collapse is a physical process stems from a misunderstanding of probabil...
The basic strategy underlying models of spontaneous wave function collapse (collapse models) is to m...
This is the first single volume about the collapse theories of quantum mechanics, which is becoming ...
It is argued (Part A) that quantum mechanics can be derived as a principle-based dynamical framework...
The quantum measurement problems are revisited from a new perspective. One of the main ideas of th...
We account for the origin of the laws of quantum probabilities in the de Broglie-Bohm (pilot wave) f...
We compare and contrast two distinct approaches to understanding the Born rule in de Broglie-Bohm pi...
Early in the development of quantum theory Bohr introduced what came to be called the Copenhagen int...
What sort of entities are electrons, photons and atoms given their wave-like and particle-like prope...
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