Title :
Distributed-Feedback Quantum Cascade Laser at 3.2 μm
Author :
Wolf, J.M. ; Bismuto, A. ; Beck, M. ; Faist, J.
Author_Institution :
Inst. for Quantum Electron., ETH Zurich, Zurich, Switzerland
Abstract :
This paper presents distributed feedback quantum cascade lasers (DFB QCLs), processed in buried heterostructure which include a quarter-wave shift defect in the center of the grating. The grating was incorporated with plasma etching using standard optical lithography. Due to the defect the devices are assumed to lase in the middle of the stopband emerging from the DFB grating. The measured emission was between 3.19 and 3.3 μm with output peak power of up to 120 mW at -20 °C. Threshold current densities reached down to 4.8 kA/cm2 and a tuning range of 10.5 cm-1 was measured while varying the temperature between -20 to 30 °C. Single mode emission was observed with side mode suppression ratios of above 20 dB with spectral linewidth of around 11 GHz.
Keywords :
diffraction gratings; distributed feedback lasers; laser tuning; photolithography; quantum cascade lasers; sputter etching; thermo-optical devices; thermo-optical effects; DFB QCL; DFB grating; buried heterostructure; distributed feedback quantum cascade laser; laser tuning; plasma etching; power 120 mW; quarter-wave shift defect; side mode suppression ratios; single mode emission; spectral linewidth; standard optical lithography; temperature -20 degC to 30 degC; threshold current density; wavelength 3.19 mum to 3.3 mum; Distributed feedback devices; Gratings; Optical waveguides; Plasma temperature; Quantum cascade lasers; Temperature; Temperature measurement;
Conference_Titel :
Lasers and Electro-Optics Europe (CLEO EUROPE/IQEC), 2013 Conference on and International Quantum Electronics Conference
Conference_Location :
Munich
Print_ISBN :
978-1-4799-0593-5
DOI :
10.1109/CLEOE-IQEC.2013.6800692
