Superposition states are at the origin of many paradoxes in quantum mechanics. By unraveling the von Neumann equation for density matrices, we develop a superposition-free formulation of quantum mechanics. Stochastic quantum jumps are a key feature of this approach, in blatant contrast with the continuity of the deterministic Schr\"odinger equation. We explain how quantum entanglement arises. Our superposition-free formulation results offers a new perspective on quantum mechanics.Comment: 4 page
The idea that wave-function collapse is a physical process stems from a misunderstanding of probabil...
In classical physics, it is possible in principle to predict with certainty the outcome of any measu...
I show that the apparent wave function collapse can take place smoothly, without discontinuities. Th...
Some forms of classical simulations of quantum type probabilities and correlations are capable of vi...
Since its inception, the many counter-intuitive aspects and results of quantum mechanics have provok...
We put forward a phenomenological theory for entanglement dynamics in monitored quantum many-body sy...
Entangled states are in conflict with a general physical principle which expresses that a composite ...
Is quantum mechanics about ‘states’? Or is it basically another kind of probability theory? It is ar...
Is quantum mechanics about ‘states’? Or is it basically another kind of probability theory? It is ar...
We consider a weakly interacting coherently coupled Bose-Einstein condensate in a double-well potent...
The paper investigates the quantum fluctuating dynamics by using the stochastic generalization of th...
Many practical systems are non-deterministic, in the sense that available information about the init...
Any attempt to introduce probabilities into quantum mechanics faces difficulties due to the mathemat...
A local, deterministic toy model for quantum mechanics is introduced and discussed. It is demonstrat...
Quantum entanglement is an important resource in quantum information technologies. Here, we study an...
The idea that wave-function collapse is a physical process stems from a misunderstanding of probabil...
In classical physics, it is possible in principle to predict with certainty the outcome of any measu...
I show that the apparent wave function collapse can take place smoothly, without discontinuities. Th...
Some forms of classical simulations of quantum type probabilities and correlations are capable of vi...
Since its inception, the many counter-intuitive aspects and results of quantum mechanics have provok...
We put forward a phenomenological theory for entanglement dynamics in monitored quantum many-body sy...
Entangled states are in conflict with a general physical principle which expresses that a composite ...
Is quantum mechanics about ‘states’? Or is it basically another kind of probability theory? It is ar...
Is quantum mechanics about ‘states’? Or is it basically another kind of probability theory? It is ar...
We consider a weakly interacting coherently coupled Bose-Einstein condensate in a double-well potent...
The paper investigates the quantum fluctuating dynamics by using the stochastic generalization of th...
Many practical systems are non-deterministic, in the sense that available information about the init...
Any attempt to introduce probabilities into quantum mechanics faces difficulties due to the mathemat...
A local, deterministic toy model for quantum mechanics is introduced and discussed. It is demonstrat...
Quantum entanglement is an important resource in quantum information technologies. Here, we study an...
The idea that wave-function collapse is a physical process stems from a misunderstanding of probabil...
In classical physics, it is possible in principle to predict with certainty the outcome of any measu...
I show that the apparent wave function collapse can take place smoothly, without discontinuities. Th...
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