Ultra-broadband spectroscopy using a 2–11.5 µm IDFG-based supercontinuum source

Author:

Krebbers Roderik1ORCID,van Kempen Kees1ORCID,Harren Frans J. M.1,Vasilyev Sergey2ORCID,Peterse Ida F.1,Lücker Sebastian1,Khodabakhsh Amir1ORCID,Cristescu Simona M.1

Affiliation:

1. Radboud University

2. IPG Photonics Corporation

Abstract

Supercontinuum sources based on intrapulse difference frequency generation (IDFG) from mode-locked lasers open new opportunities in mid-infrared gas spectroscopy. These sources provide high power and ultra-broadband spectral coverage in the molecular fingerprint region with very low relative intensity noise. Here, we demonstrate the performance of such a light source in combination with a multipass cell and a custom-built Fourier transform spectrometer (FTS) for multispecies trace gas detection. The light source provides a low-noise, ultra-broad spectrum from 2–11.5 µm with ∼3 W output power, outperforming existing mid-infrared supercontinuum sources in terms of noise, spectral coverage, and output power. This translates to an excellent match for spectroscopic applications, establishing (sub-)ppb sensitivity for molecular hydrocarbons (e.g., CH4, C2H4), oxides (e.g., SO2, NOx), and small organic molecules (e.g., acetone, ethyl acetate) over the spectral range of the supercontinuum source with a measurement time varying from seconds to minutes. We demonstrate a practical application by measuring the off-gas composition of a bioreactor containing an acidic ammonia-oxidizing culture with the simultaneous detection of multiple nitrogen oxides (NO, NO2, N2O, etc.). As the different species absorb various parts of the spectrum, these results highlight the functionality of this spectroscopic system for biological and environmental applications.

Funder

H2020 Industrial Leadership

Nederlandse Organisatie voor Wetenschappelijk Onderzoek

Publisher

Optica Publishing Group

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