Title :
High-Power Monolithic Two-Mode DFB Laser Diodes for the Generation of THz Radiation
Author :
Klehr, Andreas ; Fricke, Jorg ; Knauer, Arne ; Erbert, Gotz ; Walther, Martin ; Wilk, Rafal ; Mikulics, Martin ; Koch, Martin
Author_Institution :
Ferdinand-Braun- Inst. fur Hochstfrequenztechnik, Berlin
Abstract :
We have devolved 1064 nm high-power monolithic distributed feedback lasers which operate simultaneously on two longitudinal modes. These modes correspond to the fundamental and first-order lateral mode and arise from a 7.5 mum width ridge waveguide supporting both of them. They are further stabilized by a first-order grating built into an InGaP/GaAs/InGaP multilayer structure. The threshold current of the laser is 66 mA, the slope efficiency is 0.5 W/A, and an output power of ~500 mW is reached. Detailed investigations of the intensity distribution of lateral and vertical far fields and the spectral behavior are shown. The longitudinal mode spacing at 260 mW is 0.56 nm corresponding to approximately 150 GHz. THz generation is demonstrated by mixing the two-line laser emission in a LT-GaAsSb photomixer.
Keywords :
III-V semiconductors; diffraction gratings; distributed feedback lasers; gallium arsenide; gallium compounds; indium compounds; laser modes; optical waveguides; ridge waveguides; semiconductor lasers; submillimetre wave generation; DFB laser diodes; InGaP-GaAs-InGaP; THz radiation generation; first-order grating; first-order lateral mode; high-power monolithic distributed feedback lasers; longitudinal modes; multilayer structure; output power; photomixer; power 260 mW; ridge waveguide; size 7.5 mum; slope efficiency; threshold current; two-line laser emission; two-mode laser; wavelength 1064 nm; Diode lasers; Distributed feedback devices; Gallium arsenide; Gratings; Laser feedback; Laser modes; Nonhomogeneous media; Power lasers; Threshold current; Waveguide lasers; High-power distributed feedback (DFB) laser; terahertz (THz) generation; two mode emission;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2007.913119
