Portal de Periódicos da CAPES

Quantum stochastic differential equations: an application to the electron shelving effect

1987; Institute of Physics; Volume: 20; Issue: 18 Linguagem: Inglês

10.1088/0305-4470/20/18/034

1361-6447

Alberto Barchielli,

Quantum Mechanics and Applications

By means of a physically interesting example, it is shown how the mathematical theory of quantum stochastic calculus can be used in modelling physical systems. The example is the so-called electron shelving effect. The fluorescent light emitted by a single atom or ion presents periods of darkness if two transitions, one weak and one strong, are simultaneously driven. By a previously developed theory of counting processes, based on quantum stochastic differential equations, the full statistics of the emitted photons is obtained. In particular, the results on the duration of bright and dark periods, previously obtained by Cohen-Tannoudji and Dalibard (1986), are completely confirmed.