Roger S. Putnam scite author profile

We report a fully automated mid-IR difference-frequency spectrometer with a spectral resolution under 70 MHz pumped by a pair of conventional room-temperature 800-900-nm diode lasers. 0.1 microW of tunable cw radiation is produced from incident-diode powers of 120 and 75 mW. The system has computer-controlled beam alignment with compact CCD cameras, motorized mirrors and positioners to obtain 0.01 degrees crystal-angle positioning, 4-microm beam overlap at the nonlinear crystal, and automated diode laser beam collimation. Computer-operated frequency control uses temperature tuning and current tuning of the free-running diode lasers. The system has been demonstrated by successfully scanning, without any human intervention, 64 randomly selected acetylene absorption lines between 12 and 15 microm. Spectral scans of ammonia are also presented. This mid-IR spectrometer is suitable for fully automated spectroscopy of an unlimited list of mid-IR frequencies and has the potential to detect any trace gas that has an acceptable absorption line within the large tuning range.

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Roger S. Putnam

A continuously tunable long-wavelength cw IR source for high-resolution spectroscopy and trace-gas detection

Optically pumped semiconductor platelet lasers

A continuously tunable long-wavelength cw IR source for high-resolution spectroscopy and trace-gas detection

Continuous-wave laser spectrometer automatically aligned and continuously tuned from 118 to 161 µm by use of diode-laser-pumped difference-frequency generation in GaSe

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