Publication | Closed Access
High average-power THz radiation from femtosecond laser-irradiated InAs in a magnetic field and its elliptical polarization characteristics
262
Citations
15
References
1998
Year
Thz PhotonicsTerahertz TechnologyOptical MaterialsEngineeringLaser ApplicationsSuper-intense LasersTerahertz PhotonicsHigh-power LasersTerahertz PhysicsRadiation GenerationOptical PropertiesPhotonicsTerahertz SpectroscopyPhysicsTerahertz NetworkTerahertz ScienceElliptical Polarization CharacteristicsTerahertz DevicesBulk InasApplied PhysicsTerahertz TechniqueMagnetic FieldOptoelectronicsThz-radiation PowerVertical Polarization ComponentsFemtosecond Laser-irradiated Inas
The THz-radiation power from bulk InAs irradiated with femtosecond optical pulses is significantly enhanced and reaches 650 μW 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. We have also found that the power of the THz-radiation from an InAs sample in a magnetic field is over one order of magnitude higher than that from GaAs. Additionally, a dramatic change of ellipticity is observed, and the spectra of the horizontal and vertical polarization components are found to differ.
| Year | Citations | |
|---|---|---|
Page 1
Page 1