Add to ORKGStarting with the equivalence of the rest energy of a particle to an amount of the radiant energy characterized by a frequency, in addition to the usual relativistic transformation rules leading to the wave-particle duality, we investigate the case in which this frequency is an internal propery of the particle. This kind of interpretation of the frequency is shown to be relevant to the tunneling effect. The investigations in this direction yield (1) a purely real time everywhere, (2) an anti-hermitian momentum operator, (3) a corpuscular structure for the particle, and (4) all of the known theoretical predictions about the tunneling effect
Modern atto-second experiments seek to provide an insight into a long standing question: “how much t...
It is presented a selfconsistent systematization of various theoretical approaches to defining tunne...
We theoretically study the tunneling time by investigating a wave packet of Bose-condensed atoms pas...
We solve numerically the time-dependent Dirac equation for a quantum wave packet tunneling through a...
Tunneling is a central result of quantum mechanics. It allows quantum particles to enter regions whi...
Tunneling is a central result of quantum mechanics. It allows quantum particles to enter regions whi...
In this revised and expanded edition, in addition to a comprehensible introduction to the theoretica...
We study tunneling in one-dimensional quantum mechanics using the path integral in real time, where ...
It is shown that the results of Buttiker and Landauer on the traversal time of quantum tunneling thr...
We are in the process of building an experiment to study the tunneling of laser-cooled Rubidium atom...
A new variant of the packet analysis to solve the tunneling time problem for the so-called completed...
Using the time parameter in the time-dependent Schrödinger equation, we study the time of flight for...
Back reaction of the particle creation on the quantum tunneling process is analyzed in real time for...
We study quantum mechanical tunneling using complex solutions of the classical field equations. Simp...
A simple approach to study the traversal time for tunneling is given. By using the WKB wave function...
Modern atto-second experiments seek to provide an insight into a long standing question: “how much t...
It is presented a selfconsistent systematization of various theoretical approaches to defining tunne...
We theoretically study the tunneling time by investigating a wave packet of Bose-condensed atoms pas...
We solve numerically the time-dependent Dirac equation for a quantum wave packet tunneling through a...
Tunneling is a central result of quantum mechanics. It allows quantum particles to enter regions whi...
Tunneling is a central result of quantum mechanics. It allows quantum particles to enter regions whi...
In this revised and expanded edition, in addition to a comprehensible introduction to the theoretica...
We study tunneling in one-dimensional quantum mechanics using the path integral in real time, where ...
It is shown that the results of Buttiker and Landauer on the traversal time of quantum tunneling thr...
We are in the process of building an experiment to study the tunneling of laser-cooled Rubidium atom...
A new variant of the packet analysis to solve the tunneling time problem for the so-called completed...
Using the time parameter in the time-dependent Schrödinger equation, we study the time of flight for...
Back reaction of the particle creation on the quantum tunneling process is analyzed in real time for...
We study quantum mechanical tunneling using complex solutions of the classical field equations. Simp...
A simple approach to study the traversal time for tunneling is given. By using the WKB wave function...
Modern atto-second experiments seek to provide an insight into a long standing question: “how much t...
It is presented a selfconsistent systematization of various theoretical approaches to defining tunne...
We theoretically study the tunneling time by investigating a wave packet of Bose-condensed atoms pas...