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High-power tunable quantum-cascade laser
Russian version
Dudelev V. V.1, Cherotchenko E. D.1, Vrubel I. I.1, Mikhailov D. A.1, Chistyakov D. V.1, Losev S. N.1, Babichev A. V.1, Lyutetskii A.V.1, Slipchenko S. O.1, Pikhtin N.A.1, Gladyshev A.G.2, Podgaetskiy K. A.3, Andreev A. Yu.3, Yarotskaya I. V.3, Ladugin M. A.3, Marmalyuk A. A.3, Novikov I. I.2,4, Papylev D. S.4, Chakhlov S. A.5,6,7, Kuchinskii V. I.1, Karachinsky L. Ya.2,4, Egorov A. Yu.2, Sokolovskii G. S.1
1Ioffe Institute, St. Petersburg, Russia
2Connector Optics LLC, St. Petersburg, Russia
3“Polyus” Research Institute of M.F. Stelmakh Joint Stock Company, Moscow, Russia
4ITMO University, St. Petersburg, Russia
5Lomonosov Moscow State University, Moscow, Russia
6Moscow State University Branch in Sarov, Sarov, Nizhny Novgorod Region, Russia
7Lobachevsky State University, Nizhny Novgorod, Russia
Email: v.dudelev@mail.ru
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The studies of the quantum-cascade laser (QCL) in an external resonator in the Littrow configuration with an output power of up to 1.5 W were carried out. It was shown that the used scheme of the external resonator allows obtaining single-frequency generation with continuous tuning of more than 100 cm-1 without antireflection coatings at the QCL facets. Keywords: integrated optics, quantum cascade laser.
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