<p>(a) Coloured lines show typical computer reconstructions of the temporal evolution of particle populations with different initial sizes of 10, 20, and 100 particles. The black line is the theoretical solution η*(t). (b) Data points show average residuals between the theoretical and numerical solutions calculated for the particle populations with different initial sizes.</p
In classical mechanics, x(t) and all higher derivatives are known for a particle. Such is not the ca...
The von Neumann evolution equation for density matrix and the Moyal equation for the Wigner function...
The original motivation to build a quantum computer came from Feynman who envisaged a machine capabl...
<p>Upper panel: EEG (on the left side) and ECG (on the right side) records selected for the time-fre...
Statistical mechanics seems to be based on the idea of distributing a fixed amount of energy among a...
This paper is illustrated about the behavior of quantum mechanics looked like the that of classical...
Abstract: The particle is represented by the wave packet in nonlinear space-time continuum. Because ...
<p>(a) Exemplifies a piece-wise linear interpolation of half-wave function. (b) Shows construction o...
Probabilistic formalism of quantum mechanics is used to quantitatively link the global scale mass po...
The original motivation to build a quantum computer came from Feynman(1), who imagined a machine cap...
Two hypotheses of the mass origin are examined: 1) the theory of mass, developed within the framewor...
We introduce an equation of motion approach that allows for an approximate evaluation of the time ev...
Classical statistical mechanics is often derived using counting methods applied to all possible conf...
Newtonian mechanics is based on local information and derivatives. Quantum particles like electrons,...
These notes investigate the time evolution of quantum systems, and in particular the rigorous deriva...
In classical mechanics, x(t) and all higher derivatives are known for a particle. Such is not the ca...
The von Neumann evolution equation for density matrix and the Moyal equation for the Wigner function...
The original motivation to build a quantum computer came from Feynman who envisaged a machine capabl...
<p>Upper panel: EEG (on the left side) and ECG (on the right side) records selected for the time-fre...
Statistical mechanics seems to be based on the idea of distributing a fixed amount of energy among a...
This paper is illustrated about the behavior of quantum mechanics looked like the that of classical...
Abstract: The particle is represented by the wave packet in nonlinear space-time continuum. Because ...
<p>(a) Exemplifies a piece-wise linear interpolation of half-wave function. (b) Shows construction o...
Probabilistic formalism of quantum mechanics is used to quantitatively link the global scale mass po...
The original motivation to build a quantum computer came from Feynman(1), who imagined a machine cap...
Two hypotheses of the mass origin are examined: 1) the theory of mass, developed within the framewor...
We introduce an equation of motion approach that allows for an approximate evaluation of the time ev...
Classical statistical mechanics is often derived using counting methods applied to all possible conf...
Newtonian mechanics is based on local information and derivatives. Quantum particles like electrons,...
These notes investigate the time evolution of quantum systems, and in particular the rigorous deriva...
In classical mechanics, x(t) and all higher derivatives are known for a particle. Such is not the ca...
The von Neumann evolution equation for density matrix and the Moyal equation for the Wigner function...
The original motivation to build a quantum computer came from Feynman who envisaged a machine capabl...