Add to ORKGFor an atom or molecule in which two transitions are driven by laser beams, a three‐state model is used. Transitions among the three states are caused only by the oscillating electric fields of the laser beams. The amplitudes and detunings of the two laser beams, which are various functions of the time, appear in the Schrödinger equation for the atom or molecule. In certain cases, the Schrödinger equation can be solved analytically, to find transition probabilities and the probability of no transition. This is done by using Clausen’s special function, or by assuming that the sum of the two detunings is zero at all times. Conditions for complete transfer of the population from the ground state to an excited state are obtained from the analyt...
We discuss population transfer from the ground to the excited state of a three-level atom or molecul...
Several calculations have been carried out using the transition operator technique. The radiative...
We have solved the time-dependent Schrödinger equation to analyze the time evolution of a hydrogen a...
For an atom or molecule in which two transitions are driven by laser beams, a three‐state model is u...
We use a three-state model for an atom or molecule in which two transitions are simultaneously drive...
We use a three-state model for an atom or molecule in which two transitions are simultaneously drive...
We study a simple model atom that has two bound states and a continuum of free states, interacting w...
We study a simple model atom that has two bound states and a continuum of free states, interacting w...
An iterative method to obtain a solution of the differential equation Mathematical expression, with ...
An iterative method to obtain a solution of the differential equation Mathematical expression, with ...
The Schrödinger equation in the rotating-wave approximation has been solved nonperturbatively to stu...
We discuss population transfer from the ground to the excited state of a three-level atom or molecul...
We discuss population transfer from the ground to the excited state of a three-level atom or molecul...
New analytic solutions to the problem of a three-state system driven simultaneously by resonant opti...
We discuss population transfer from the ground to the excited state of a three-level atom or molecul...
We discuss population transfer from the ground to the excited state of a three-level atom or molecul...
Several calculations have been carried out using the transition operator technique. The radiative...
We have solved the time-dependent Schrödinger equation to analyze the time evolution of a hydrogen a...
For an atom or molecule in which two transitions are driven by laser beams, a three‐state model is u...
We use a three-state model for an atom or molecule in which two transitions are simultaneously drive...
We use a three-state model for an atom or molecule in which two transitions are simultaneously drive...
We study a simple model atom that has two bound states and a continuum of free states, interacting w...
We study a simple model atom that has two bound states and a continuum of free states, interacting w...
An iterative method to obtain a solution of the differential equation Mathematical expression, with ...
An iterative method to obtain a solution of the differential equation Mathematical expression, with ...
The Schrödinger equation in the rotating-wave approximation has been solved nonperturbatively to stu...
We discuss population transfer from the ground to the excited state of a three-level atom or molecul...
We discuss population transfer from the ground to the excited state of a three-level atom or molecul...
New analytic solutions to the problem of a three-state system driven simultaneously by resonant opti...
We discuss population transfer from the ground to the excited state of a three-level atom or molecul...
We discuss population transfer from the ground to the excited state of a three-level atom or molecul...
Several calculations have been carried out using the transition operator technique. The radiative...
We have solved the time-dependent Schrödinger equation to analyze the time evolution of a hydrogen a...