ANISOTROPIC OPTICAL STARK-EFFECT IN GASE
20TH INTERNATIONAL CONFERENCE ON THE PHYSICS OF SEMICONDUCTORS, VOLS 1-3 (1990) 1891-1894
The femtosecond optical Kerr effect in molten caesium chloride
Journal of Physics: Condensed Matter 1:16 (1989) 2715-2719
Abstract:
Femtosecond time-resolved measurements of the optical Kerr effect in molten caesium chloride have been made. Amplified laser pulses of 115 fs duration and 1 mu J energy were used to induce a birefringence. The transmission of a weak probe pulse of the same duration gives a value of 180 fs for the relaxation time of the induced birefringence; this value is consistent with that expected for binary ionic collisions. The magnitude of the Kerr coefficient is estimated to be approximately=3*10-22 m3 V-2 (3*10-13 esu).Femtosecond electron and hole thermalisation in AlGaAs
Solid State Electronics 32:12 (1989) 1173-1177
Abstract:
Femtosecond optical absorption spectra of AlxGa1-xAs reveal rapid thermalisation of the electron-hole plasma to a two-temperature carrier distribution after ∼ 500fs. The carriers thermalise to a single-temperature distribution at ∼ 10ps. Single phonon emission by electrons is observed at early times when the carrier density is low. Theoretical calculations which model analytically the principal carrier-carrier and carrier-phonon interactions responsible for thermalisation give good agreement with the data. © 1989.Investigation of inter-valley scattering and hot phonon dynamics in GaAs quantum wells using femtosecond luminescence intensity correlation
Superlattices and Microstructures 6:2 (1989) 199-202
Abstract:
Photoluminescence intensity correlation measurements of GaAs quantum wells using 120 fs laser pulses show relatively slow relaxation times ≤ 10 ps at high energy close to the L valley conduction band minimum. This value is consistent with recent measurements of the L → Γ scattering time. However, theoretical estimates show that nonequilibrium phonon effects can also give rise to slow relaxation on this timescale.FEMTOSECOND ELECTRON AND HOLE THERMALIZATION IN ALGAAS
SOLID STATE ELECTRON 32:12 (1989) 1173-1177