Ultrafast sum-frequency polarization beats in twin Markovian stochastic correlation


Autoria(s): Zhang, YP; Gan, CL; Song, JP; Yu, XJ; Ge, H; Ma, RQ; Jiang, T; Li, CS; Lu, KQ
Data(s)

20/09/2005

Resumo

An analytic closed form for the second- order or fourth- order Markovian stochastic correlation of attosecond sum- frequency polarization beat ( ASPB) can be obtained in the extremely Doppler- broadened limit. The homodyne detected ASPB signal is shown to be particularly sensitive to the statistical properties of the Markovian stochastic light. fields with arbitrary bandwidth. The physical explanation for this is that the Gaussian- amplitude. field undergoes stronger intensity. fluctuations than a chaotic. field. On the other hand, the intensity ( amplitude). fluctuations of the Gaussian- amplitude. field or the chaotic. field are always much larger than the pure phase. fluctuations of the phase-diffusion field. The field correlation has weakly influence on the ASPB signal when the laser has narrow bandwidth. In contrast, when the laser has broadband linewidth, the ASPB signal shows resonant- nonresonant cross correlation, and the sensitivities of ASPB signal to three Markovian stochastic models increase as time delay is increased. A Doppler- free precision in the measurement of the energy- level sum can be achieved with an arbitrary bandwidth. The advantage of ASPB is that the ultrafast modulation period 900as can still be improved, because the energy- level interval between ground state and excited state can be widely separated.

Identificador

http://ir.opt.ac.cn/handle/181661/6702

http://www.irgrid.ac.cn/handle/1471x/70502

Idioma(s)

英语

Palavras-Chave #光学
Tipo

期刊论文