2.08 THz and 4.96 THz Room-Temperature Quantum Cascade Lasers Based on Non-Polar M-Plane ZnMgO/ZnO
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SIRKELI, Vadim, YILMAZOGLU, Oktay, KUPPERS, Franko, HARTNAGEL, Hans Ludwig. 2.08 THz and 4.96 THz Room-Temperature Quantum Cascade Lasers Based on Non-Polar M-Plane ZnMgO/ZnO. In: International Conference on Infrared, Millimeter, and Terahertz Waves: IRMMW-THz, 9-14 septembrie 2018, Nagoya. Washington, D.C., Statele Unite: IEEE Computer Society, 2018, Ediția a 43-a, p. 0. ISSN 21622027. DOI: https://doi.org/10.1109/IRMMW-THz.2018.8510344
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International Conference on Infrared, Millimeter, and Terahertz Waves
Ediția a 43-a, 2018
Conferința "43rd International Conference on Infrared Millimeter and Terahertz Waves"
Nagoya, Japonia, 9-14 septembrie 2018

2.08 THz and 4.96 THz Room-Temperature Quantum Cascade Lasers Based on Non-Polar M-Plane ZnMgO/ZnO

DOI: https://doi.org/10.1109/IRMMW-THz.2018.8510344

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Sirkeli Vadim12, Yilmazoglu Oktay1, Kuppers Franko1, Hartnagel Hans Ludwig1
 
1 Technical University Darmstadt,
2 Moldova State University
 
Disponibil în IBN: 10 iunie 2021


Rezumat

We report on numerical study of room-temperature terahertz quantum cascade lasers (THz QCLs) based on a nonpolar m-plane ZnMgO/ZnO employing a 2-well design scheme with variable barrier heights and a delta-doped injector well. We show that by varying and optimizing constituent layer widths and doping level of the injector well, high power performance of THz QCLs can be achieved at room temperature: optical gain and radiation frequency is varied from 108 cm-1@ 2.18 THz to 300 cm-1 @ 4.96 THz. These results show that among II-VI compounds the ZnMgO/ZnO material system is optimally suited for high-performance room-temperature THz QCLs.

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