Add to ORKGIt is shown that the results of Buttiker and Landauer on the traversal time of quantum tunneling through a potential barrier are in agreement with the principle of relativity. Also, they are consistent with the data on the life-time of nuclear particles that decay in flight. PACS number: 03.30, Special Relativit
Relativity and Quantum Theory both set finite limits on certain physical quantities. For relativity ...
A quantum particle moving in a gravitational field may penetrate the classically forbidden region of...
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...
Modern atto-second experiments seek to provide an insight into a long standing question: “how much t...
A simple approach to study the traversal time for tunneling is given. By using the WKB wave function...
In this revised and expanded edition, in addition to a comprehensible introduction to the theoretica...
How long does a quantum particle take to traverse a classically forbidden energy barrier? In other w...
A simple model of a quantum clock is applied to the old and controversial problem of how long a part...
Quantum particles interacting with potential barriers are ubiquitous in physics, and the question of...
Modern atto-second experiments seek to provide an insight into a long standing question: “how much t...
Starting with the equivalence of the rest energy of a particle to an amount of the radiant energy ch...
Quantum mechanics predicts an exponentially small probability that a particle with energy greater th...
Using the time parameter in the time-dependent Schrödinger equation, we study the time of flight for...
In this dissertation we discuss aspects of the transitions between metastable vacua in scalar field ...
Relativity and Quantum Theory both set finite limits on certain physical quantities. For relativity ...
A quantum particle moving in a gravitational field may penetrate the classically forbidden region of...
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...
Modern atto-second experiments seek to provide an insight into a long standing question: “how much t...
A simple approach to study the traversal time for tunneling is given. By using the WKB wave function...
In this revised and expanded edition, in addition to a comprehensible introduction to the theoretica...
How long does a quantum particle take to traverse a classically forbidden energy barrier? In other w...
A simple model of a quantum clock is applied to the old and controversial problem of how long a part...
Quantum particles interacting with potential barriers are ubiquitous in physics, and the question of...
Modern atto-second experiments seek to provide an insight into a long standing question: “how much t...
Starting with the equivalence of the rest energy of a particle to an amount of the radiant energy ch...
Quantum mechanics predicts an exponentially small probability that a particle with energy greater th...
Using the time parameter in the time-dependent Schrödinger equation, we study the time of flight for...
In this dissertation we discuss aspects of the transitions between metastable vacua in scalar field ...
Relativity and Quantum Theory both set finite limits on certain physical quantities. For relativity ...
A quantum particle moving in a gravitational field may penetrate the classically forbidden region of...
We theoretically study the tunneling time by investigating a wave packet of Bose-condensed atoms pas...