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Quantum Fourier Transform Infrared Spectroscopy: Evaluation, Benchmarking, and Prospects

Paul Gattinger, Andreas W. Schell, Sven Ramelow, Markus Brandstetter, Ivan Zorin

2025Applied Spectroscopy6 citationsDOI

Abstract

Sensing with undetected photons has enabled new, unconventional approaches to Fourier transform infrared spectroscopy (FT-IR). Leveraging properties of non-degenerate entangled photon pairs, mid-infrared (mid-IR) information can be accessed in the near-infrared (near-IR) spectral domain to perform mid-IR spectroscopy with silicon-based detection schemes. Here, we address practical aspects of vibrational spectroscopy with undetected photons using a quantum FT-IR (QFT-IR) implementation. The system operates in the spectral range from around 3000 cm −1 to 2380 cm −1 (detection at around 12 500 cm −1 ) and possesses only 68 pW of mid-IR probing power for spectroscopic measurements with a power-dependence of the signal-to-noise ratio of 1.5 × 10 5 mW −1/2 . We evaluate the system’s short- and long-term stability and experimentally compare it to a commercial FT-IR instrument using Allan–Werle plots to benchmark our QFT-IR implementation’s overall performance and stability. In addition, comparative qualitative spectroscopic measurements of polymer thin films are performed using the QFT-IR spectrometer and a commercial FT-IR with identical resolution and integration times. Our results show under which conditions QFT-IR can practically be competitive or potentially outperform conventional FT-IR technology.

Topics & Concepts

InfraredSpectroscopyInfrared spectroscopyFourier transform infrared spectroscopyPhotonSpectrometerFourier transformFourier transform spectroscopyTwo-dimensional infrared spectroscopyMaterials scienceAnalytical Chemistry (journal)ChemistryOpticsPhysicsChromatographyOrganic chemistryQuantum mechanicsSpectroscopy Techniques in Biomedical and Chemical ResearchSpectroscopy and Laser ApplicationsOptical Imaging and Spectroscopy Techniques
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