Directional Anisotropy of the Backward Four-Wave Mixing in Gases
スポンサーリンク
概要
- 論文の詳細を見る
Directional anisotropy of the nonlinear polarization responsible for the back-ward four-wave mixing in gases has been theoretically investigated for Dopplerbroadened two-level and Raman type three-level systems. It has been found thatdefinite separation of coherent and incoherent terms of the nonlinear polarizationis possible via backward four-wave mixing and also that a single Lorentzian lineshape is expected to be observed which enables us to unambiguously determinethe relaxation rate of a dipole forbidden transition.
- 社団法人日本物理学会の論文
- 1981-01-15
著者
-
SAIKAN Seishiro
Department of Physics, Graduate School of Science, Tohoku University
-
Saikan Seishiro
Department Of Physics Faculty Of Science Osaka University
-
Saikan Seishiro
Department Of Applied Physics Faculty Of Engineering University Of Tokyo
関連論文
- Optimization of Modulation Index for the Detection of Phase-Modulated Accumulated Photon Echo
- Rotational Relaxation and Self-Trapping Threshold of Ultra-Short Pulses
- Directional Anisotropy of the Backward Four-Wave Mixing in Gases
- Nobel Method for the Derivation of 1-Phonon Function from Fluorescence Line Narrowing Spectrum
- Difference between Coherent-Pulse and Incoherent-Pulse Photon Echoes in Non-Markovian Behavior
- Modified Double-Grating Grazing Incidence Pulsed Dye Laser
- Femtosecond Optical Memory with nan Incoherent Light Source : FUTURE TECHNOLOGY
- High-Frequency Heterodyned Detection of Picosecond Accumulated Photon Echoes
- Subnanosecond Nitrogen Laser
- Kleinman Relation in the 3rd-Order Nonlinear Susceptibility of Dye Solutions