Superconducting waveguides for terahertz quantum cascade lasers

M. Brandstetter, A. Benz, C. Deutsch, K. Unterrainer, P. Klang, H. Detz, W. Schrenk, A. M. Andrews, G. Strasser
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Abstract

Quantum cascade lasers (QCLs) are the only compact sources of coherent terahertz (THz) radiation. This spectral region is very interesting for various applications like spectroscopy or imaging. Up to now THz QCLs are operating in the regime between 1 and 5 THz. One of the advantages of QCLs is that the wavelength of the device can be tailored by the design of the active region. In addition the waveguide determines the optical properties and the performance of the QCL. A double-metal (DM) waveguide, where the THz radiation is guided in between two metal layers, provides low losses and high confinement of the optical mode. Besides Fabry-Perot cavities also disk- [1] and photonic crystal resonators [2] have been reported. The main reason for the waveguide losses is the absorption of the THz radiation by the metal layers [1].
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太赫兹量子级联激光器的超导波导
量子级联激光器(qcl)是唯一紧凑的相干太赫兹(THz)辐射源。这个光谱区域对于光谱学或成像等各种应用都非常有趣。到目前为止,太赫兹量子激光器工作在1到5太赫兹之间。qcl的优点之一是器件的波长可以通过有源区域的设计来定制。此外,波导还决定了QCL的光学特性和性能。双金属(DM)波导,其中太赫兹辐射被引导在两个金属层之间,提供低损耗和高约束的光学模式。除了法布里-珀罗腔外,还报道了圆盘-[1]和光子晶体谐振腔[2]。波导损耗的主要原因是金属层对太赫兹辐射的吸收。
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