Abstract
We present a fast-scanning Fourier transform spectrometer (FTS) in combination with high-repetition-rate mid-infrared supercontinuum sources, covering a wavelength range of 2-10.5 µm. We demonstrate the performance of the spectrometer for trace gas detection and compare various detection methods: baseband detection with a single photodetector, baseband balanced detection, and synchronous demodulation at the repetition rate of the supercontinuum source. The FTS uses off-the-shelf optical components and provides a minimum spectral resolution of 750 MHz. It achieves a noise equivalent absorption sensitivity of ∼10-6 cm-1 Hz-1/2 per spectral element, by using a 31.2 m multipass absorption cell.
Highlights
Fourier transform spectroscopy is a widely used and a well-established method
We present a fast-scanning Fourier transform spectrometer (FTS) in combination with high-repetition-rate mid-infrared supercontinuum sources, covering a wavelength range of 2–10.5 μm
Novel mid-infrared (MIR) supercontinuum (SC) sources provide broad spectral coverage and high optical power, within a spatially coherent beam. These features are very desirable for multispecies trace gas detection, using a long optical interaction length in a multipass cell and a Fourier transform spectrometer (FTS)
Summary
Fourier transform spectroscopy is a widely used and a well-established method. It has been the golden standard for chemical detection and characterization of solid, liquid and gas-phase samples. It can provide a broad spectral bandwidth and high spectral resolution, especially in the mid-infrared (MIR) molecular fingerprint region. It is traditionally provided with incoherent thermal light sources, which are omnidirectional and have low spectral brightness. Achieving a long interaction length in gas-phase samples is quite a challenge. Long averaging times are needed to obtain a spectrum with a high resolution and high signal-to-noise ratio (SNR)
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