Add to ORKGThe frequency of a classical periodic system and the energy levels of the corresponding quantum system can both be obtained using action variables. We demonstrate the construction of two forms of the action variable for a one dimensional harmonic oscillator in classical, relativistic and quantum regimes. The relativistic effects are considered as perturbative, within the context of a non-relativistic quantum formalism. The transition of the relativistic quantum system to both classical relativistic and classical non-relativistic regimes is illustrated in a unified framework. Formulas for the frequency of a classical relativistic oscillator and the energy eigenvalues of the corresponding quantum oscillator for the weak relativistic case are ...
In a previous note (1) we examined the idea of a classical frequency such as that of an oscillator a...
The work described m this thesis is based on a detailed analysis of the classical and quantum non li...
In this brief note, we investigate the role of classical frequencies in quantum mechanical problems....
We compare the time evolution of the quantum-mechanical spatial probability density obtained by solv...
We use the quantum action to study the dynamics of quantum system at finite temperature. We construc...
A Harmonic Oscillator is an integral part of periodic motion in Classical and Quantum Theory. For sy...
ISSN Online: 2327-4379In this paper, we examine quantum systems with relativistic dynamics. We show ...
The classical action: Integral (0,T) dt1 L(v(t1), x(t1),t1) may be varied to find a stationary solu...
Operator angle-action variables are studied in the frame of the SU(2) algebra, and their eigenstates...
The investigation of quantum–classical correspondence may lead to gaining a deeper understanding of ...
The quantum theory of the damped harmonic oscillator has been a subject of continual investigation s...
We investigate the dynamics of the spin-less relativistic particle subject to an external field of a...
The concept of deterministic theory underlying quantum mechanics, usually referred to as “hidden&n...
The classical limit of quantum q-oscillators suggests an interpretation of the deformation as a way ...
The concept of deterministic theory underlying quantum mechanics, usually referred to as “hidden&n...
In a previous note (1) we examined the idea of a classical frequency such as that of an oscillator a...
The work described m this thesis is based on a detailed analysis of the classical and quantum non li...
In this brief note, we investigate the role of classical frequencies in quantum mechanical problems....
We compare the time evolution of the quantum-mechanical spatial probability density obtained by solv...
We use the quantum action to study the dynamics of quantum system at finite temperature. We construc...
A Harmonic Oscillator is an integral part of periodic motion in Classical and Quantum Theory. For sy...
ISSN Online: 2327-4379In this paper, we examine quantum systems with relativistic dynamics. We show ...
The classical action: Integral (0,T) dt1 L(v(t1), x(t1),t1) may be varied to find a stationary solu...
Operator angle-action variables are studied in the frame of the SU(2) algebra, and their eigenstates...
The investigation of quantum–classical correspondence may lead to gaining a deeper understanding of ...
The quantum theory of the damped harmonic oscillator has been a subject of continual investigation s...
We investigate the dynamics of the spin-less relativistic particle subject to an external field of a...
The concept of deterministic theory underlying quantum mechanics, usually referred to as “hidden&n...
The classical limit of quantum q-oscillators suggests an interpretation of the deformation as a way ...
The concept of deterministic theory underlying quantum mechanics, usually referred to as “hidden&n...
In a previous note (1) we examined the idea of a classical frequency such as that of an oscillator a...
The work described m this thesis is based on a detailed analysis of the classical and quantum non li...
In this brief note, we investigate the role of classical frequencies in quantum mechanical problems....