Within a molecule, the modes of atomic bond vibrations are linked to specific features in their absorption spectrum. Most of the molecular vibrational frequencies lie in the mid-infrared (mid-IR) spectral region. Mid-IR optical frequency combs enable high-precision and high-sensitivity spectroscopy to study the presence, composition, and structure of molecules, as well as their interaction within a mixture. Such measurements are standard in the analysis of atmospheric gasses and trace gasses, enabling applications in science and industry.

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Application News

A Frequency Comb for Finer Distinctions

A compressed view on complex gas mixtures

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Why would I need an optical frequency comb?

Application Notes

• SCIENTIFIC PUBLICATION: Optical frequency comb-based measurements and the revisited assignment of high-resolution spectra of CH_2Br_2 in the 2960 to 3120 cm^(−1) region
• SCIENTIFIC PUBLICATION: Infrared frequency comb spectroscopy of CH2I2: Influence of hot bands and pressure broadening on the ν1 and ν6 fundamental transitions
• SCIENTIFIC PUBLICATION: Line positions and intensities of the ν_4 band of methyl iodide using mid-infrared optical frequency comb Fourier transform spectroscopy
• SCIENTIFIC PUBLICATION: A rapid, spatially dispersive frequency comb spectrograph aimed at gas phase chemical reaction kinetics
• SCIENTIFIC PUBLICATION: High-power frequency comb source tunable from 2.7 to 4.2 μm based on difference frequency generation pumped by an Yb-doped fiber laser