Modeling evaporative cooling in phase space using a direct simulation of the Monte Carlo method
Conference on Quantum Electronics and Laser Science (QELS) - Technical Digest Series 9 (1996) 228-229
Abstract:
A simulation of the forced evaporative cooling process is made using a classical Monte Carlo method. This powerful method is complementary to other recent studies of evaporative cooling and does not need the assumption that a gas has recovered thermal equilibrium after each cut of potential well or the assumption of sufficient ergodicity. Direct simulation by Bird's method can be done in any arbitrary potential and can be used to study the deviation between three components of translational temperature during forced evaporation.Pulsed sub-recoil laser cooling of atoms
Journal of Optics B: Quantum and Semiclassical Optics 8:5 (1996) 983-988
Abstract:
In this paper we propose a new and simple velocity selective method, which combines the velocity selective coherent population trapping of atoms in a light field and the kinetic energy coupling between the dark state and coupled state(s) during free flight, in order to reach a very narrow momentum distribution in a short period of time. This technique combined with force-assisted velocity selective coherent population trapping can produce very efficient cooling and trapping. It can also be used to overcome the cooling limit caused by the leakage of the dark state.Quantum jump calculations of subrecoil cooling in one and two dimensions
Conference on Quantum Electronics and Laser Science (QELS) - Technical Digest Series 9 (1996) 201
Abstract:
Proposed is an efficient quantum jump method that is suitable for the study of subrecoil cooling. The method is an improvement over using the numerical integration of Schrodinger equation to find delay time in which the excited state decay term is incorporated into the Hamiltonian making it a non-Hermitian matrix. It can also be applied to the calculation of three-dimensional velocity selective coherent population trapping proposed by Mauri and Arimondo in F = 3/2 to F = 3/2 transition.Adiabatic transfer for atomic interferometry.
Phys Rev A 53:1 (1996) 373-380
Effect of scattered radiation on sub-Doppler cooling.
Phys Rev A 52:6 (1995) 4763-4786