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From room temperature lasing to low dissipation CW DFB

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Titel From room temperature lasing to low dissipation CW DFB
Serientitel 20 Years of Quantum Cascade Laser Anniversary Workshop
Autor Muller, Antoine
Lizenz CC-Namensnennung - keine kommerzielle Nutzung - keine Bearbeitung 2.5 Schweiz:
Sie dürfen das Werk bzw. den Inhalt in unveränderter Form zu jedem legalen und nicht-kommerziellen Zweck nutzen, vervielfältigen, verbreiten und öffentlich zugänglich machen, sofern Sie den Namen des Autors/Rechteinhabers in der von ihm festgelegten Weise nennen.
DOI 10.5446/35744
Herausgeber Eidgenössische Technische Hochschule (ETH) Zürich
Erscheinungsjahr 2014
Sprache Englisch

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Fachgebiet Physik
Abstract The quantum cascade laser is a semiconductor laser operating in the mid-infrared and Terahertz region of the spectrum. Its operation is based on two counter-intuitive phenomena characteristic of quantum mechanics: quantum confinement and tunneling. One of the most striking aspects of the quantum cascade laser is the fact that, in contrast to all the other lasers before, its operation and performance critically depends on quantum design of tens of layers of atomic thicknesses arranged in a stack that eventually comprises more than a thousand individual quantum layers. Two critical factors decided the success of what could have remained a pure laboratory curiosity. First of all, the QCL operated naturally in a wavelength range where other semiconductor lasers had difficulty reaching: the interband lead-salt lasers operated only in cryogenic temperatures, the technology on which it was based was difficult to control and the lasers themselves had a poor reliability and stability. In contrast, the quantum cascade laser was based on the same materials and techniques used for the telecom devices. Consequently, the QCL could leverage from the huge investments made to develop the optical communication industry. Finally, the new physical principle the quantum cascade laser was based on gave this device some key beneficial features, some of them being still being not fully exploited today. The significance of the quantum cascade laser is that it really unlocked a complete frequency range, the mid-infrared for applications. At the present time, those are dominantly focused on chemical sensing for environmental, medical and material processing, but could in the long term also concern telecommunications and material processing. The first quantum cascade laser was first successfully operated in Bell Labs Jan 14, 1994. The concept is to celebrate the 20 years of this invention by a symposium that reunites the key players of the field to examine the new trends and directions of the field. Therefore, the symposium is scheduled for January 16-17, 2014 in ETH Zurich. We have secured the participation of a very prestigious roster of speakers for the occasion.

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