INTENSE THz-RADIATION SOURCES USING SEMICONDUCTORS IRRADIATED WITH FEMTOSECOND LASER PULSES IN A MAGNETIC FIELD
- 1 March 1999
- journal article
- research article
- Published by World Scientific Pub Co Pte Ltd in Journal of Nonlinear Optical Physics & Materials
- Vol. 08 (01) , 71-87
- https://doi.org/10.1142/s0218863599000060
Abstract
We report significant enhancement of THz radiation from InAs under magnetic field irradiated with femtosecond pulses. The THz-radiation power is significantly enhanced and reaches sub-mW level in a 1.7-T magnetic field with 1.5-W excitation power. The THz-radiation power is related almost quadratically both to the magnetic field and excitation laser power. Furthermore, the radiation spectrum is found to be controlled by the excitation pulsewidth, chirp direction of the excitation pulse, and the magnetic field. Additionally, we have demonstrated a new method to generate THz radiation from a saturable Bragg reflector in a magnetic field.Keywords
This publication has 18 references indexed in Scilit:
- T-ray tomographyOptics Letters, 1997
- All-Solid-State, THz Radiation Source Using a Saturable Bragg Reflector in a Femtosecond Mode-Locked LaserJapanese Journal of Applied Physics, 1997
- Terahertz radiation from superconducting YBa2Cu3O7−δ thin films excited by femtosecond optical pulsesApplied Physics Letters, 1996
- Ultrafast photoexcited cyclotron emission: Contributions from real and virtual excitationsPhysical Review B, 1996
- Terahertz photomixing with diode lasers in low-temperature-grown GaAsApplied Physics Letters, 1995
- Magnetic switching of THz beamsApplied Physics Letters, 1993
- THz pulses from the creation of polarized electron-hole pairs in biased quantum wellsApplied Physics Letters, 1992
- Subpicosecond electrical pulse generation using photoconductive switches with long carrier lifetimesApplied Physics Letters, 1989
- Direct Subpicosecond Measurement of Carrier Mobility of Photoexcited Electrons in Gallium ArsenidePhysical Review Letters, 1987
- Subpicosecond electro-optic shock wavesApplied Physics Letters, 1983