Complementary Vibrational Spectroscopy
Kazuki Hashimoto, Venkata Ramaiah Badarla, Akira Kawai, Takuro, Ideguchi

TL;DR
This paper introduces a novel dual-modal Fourier-transform spectroscopy system that simultaneously captures infrared and Raman spectra, enabling complete broadband vibrational analysis with a single instrument for improved molecular identification.
Contribution
The work presents the first integrated system for simultaneous infrared and Raman vibrational spectroscopy using ultrashort pulsed lasers and nonlinear optics, overcoming previous limitations of single-method analysis.
Findings
Achieved rapid, broadband vibrational spectra measurement
Demonstrated high spectral resolution of complementary spectra
Enabled precise molecular analysis of organic liquids
Abstract
Vibrational spectroscopy, comprised of infrared absorption and Raman scattering spectroscopy, is widely used for label-free optical sensing and imaging in various scientific and industrial fields. The group theory states that the two molecular spectroscopy methods are sensitive to vibrations categorized in different point groups and provide complementary vibrational spectra. Therefore, complete vibrational information cannot be acquired by a single spectroscopic device, which has impeded the full potential of vibrational spectroscopy. Here, we demonstrate simultaneous infrared absorption and Raman scattering spectroscopy that allows us to measure the complete broadband vibrational spectra in the molecular fingerprint region with a single instrument based on an ultrashort pulsed laser. The system is based on dual-modal Fourier-transform spectroscopy enabled by efficient use of nonlinear…
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