@misc{Karbownik_Piotr_Low_2009, author={Karbownik, Piotr and Barańska, Anna and Szerling, Anna and Macherzyński, Wojciech and Papis, Ewa and Kosiel, Kamil and Bugajski, Maciej and Tłaczała, Marek and Jakieła, Rafał}, contributor={Gaj, Miron. Redakcja and Urbańczyk, Wacław. Redakcja}, year={2009}, rights={Wszystkie prawa zastrzeżone (Copyright)}, publisher={Oficyna Wydawnicza Politechniki Wrocławskiej}, description={Optica Applicata, Vol. 39, 2009, nr 4, s. 655-661}, language={eng}, abstract={This paper reports on the results of optimization of ohmic contacts for GaAs/AlGaAs quantum cascade lasers (QCLs). Technological parameters during optimization concerned surface preparation, evaporation method, and thermal treatment. The aim of this research was to obtain low resistance and time stable ohmic contacts. The average specific contact resistance was 6×10–7 Ωcm–2 with record value below 3×10–7 Ωcm–2. It appears that the crucial role in contact formation is played by the in-situ surface pretreatment and thermal processing. Circular transmission line method (CTLM) was applied for electrical characterization of Ni/AuGe/Ni/Au metallization system. Secondary ion mass spectroscopy (SIMS) was used for determination of Au diffusion into semiconductor. The system presented was used in fabrication of pulse operating QCLs. The lasers mounted with diamond heat spreaders on copper block cooled by liquid nitrogen (LN) achieved optical powers over 1 W, threshold current density values of 7 kAcm–2 and differential efficiencies above 1 W/A.}, title={Low resistance ohmic contacts to n-GaAs for application in GaAs/AlGaAs quantum cascade lasers}, type={artykuł}, keywords={optyka, ohmic contacts, sputtering, rapid thermal annealing (RTA), quantum cascade lasers (QCLs)}, }