Spectral Interleaving with Quantum Cascade Laser Frequency Combs

M. Gianella, Akshay Nataraj, B. Tuzson, F. Kapsalidis, S. Schilt, T. Südmeyer, J. Faist, L. Emmenegger
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Abstract

Quantum cascade laser (QCL) based frequency combs are mid-infrared sources capable of producing hundreds of mW of optical power distributed across several hundred comb lines spanning tens of cm−1. In the dual comb (or multi-heterodyne) configuration, two nearly identical frequency combs with slightly different comb spacing are used as an interrogating and local oscillator comb, respectively, to probe the absorption or refractive index of a sample [1]. The multi-heterodyne beat note signal produced by overlapping the two beams on a fast photodetector allows simultaneous access to all optical frequencies of the interrogating comb, enabling fast (sub-μs) acquisition of time-resolved absorption and/or dispersion spectra [2]. The typical length of QCL devices of ca. 5 mm leads to comb spacings of the order of 10 GHz (0.33 cm−1). While suitable for spectroscopy in the condensed phase, gas-phase spectroscopy requires much finer spectral sampling (e.g. <10 MHz for Doppler-broadened transitions of small molecules). This can be achieved by spectral interleaving, i.e. by the continuous or step-wise shifting of the spectrum of the interrogating comb.
量子级联激光频率梳的频谱交织
基于量子级联激光(QCL)的频率梳是中红外光源,能够产生数百mW的光功率,分布在跨越数十cm−1的数百个梳线上。在双梳(或多外差)配置中,使用两个几乎相同频率的梳,梳间距略有不同,分别作为询问梳和本振梳,用于探测样品的吸收或折射率[1]。通过在快速光电探测器上重叠两束光束产生的多外差拍音信号允许同时访问查询梳的所有光学频率,从而实现快速(亚μs)采集时间分辨吸收和/或色散光谱[2]。QCL器件的典型长度约为5 mm,导致梳间距约为10 GHz (0.33 cm−1)。虽然适合于凝聚相光谱,但气相光谱需要更精细的光谱采样(例如小分子的多普勒展宽跃迁<10 MHz)。这可以通过频谱交错来实现,即通过连续或逐步移动询问梳的频谱。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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