A narrowband infrared source based on orientation-patterned GaAs for standoff detection of chemicals

Abstract: This paper presents our work on a pulsed single-frequency tunable optical parametric oscillator based on orientation-patterned gallium arsenide. Owing to crystal temperature tuning, this source covers the 10.2-11.2 and 7.6-8.6 μm ranges in singlelongitudinal mode operation with a linewidth below 30 MHz. Standoff detection of ammonia around 10.35 and 10.5 μm is performed by implementing this source in an Integrated Path Differential Absorption Lidar (IP-DIAL) setup.

“…Therefore, increasing our tuning range would require some additional work from the supplier or using a different approach. After down conversion by the NesCOPO, this 20 nm tuning range translates to 360 nm around 8 µm and to 500 nm tuning around 10 µm, which is enough to scan different absorption bands of several hazardous chemicals [3]. The SLM operation we demonstrated with less than 4 pm linewidth is nearly Fourier transform limited and outperforms all that was already demonstrated with pulsed tunable 2 µm lasers.…”

“…For an amplification factor of 10, a laser energy of 200 to 250 µJ per pulse at 2 µm with a pulse duration between 10 and 100 ns is targeted. Besides, a higher average power and a higher pulse repetition rate are desirable for both facilitating wavelength using commercial spectrometers, as well as for using the NesCOPO as a source for stand-off detection of fast-moving gas plumes or in the presence of atmospheric fluctuations [3]. We built a second version of the laser operating at 300 Hz and successfully used it to pump an OP-GaAs NesCOPO.…”

Actively Q-switched tunable single-longitudinal-mode 2 µm Tm:YAP laser using a transversally chirped volume Bragg grating

“…Therefore, increasing our tuning range would require some additional work from the supplier or using a different approach. After down conversion by the NesCOPO, this 20 nm tuning range translates to 360 nm around 8 µm and to 500 nm tuning around 10 µm, which is enough to scan different absorption bands of several hazardous chemicals [3]. The SLM operation we demonstrated with less than 4 pm linewidth is nearly Fourier transform limited and outperforms all that was already demonstrated with pulsed tunable 2 µm lasers.…”

“…For an amplification factor of 10, a laser energy of 200 to 250 µJ per pulse at 2 µm with a pulse duration between 10 and 100 ns is targeted. Besides, a higher average power and a higher pulse repetition rate are desirable for both facilitating wavelength using commercial spectrometers, as well as for using the NesCOPO as a source for stand-off detection of fast-moving gas plumes or in the presence of atmospheric fluctuations [3]. We built a second version of the laser operating at 300 Hz and successfully used it to pump an OP-GaAs NesCOPO.…”

Actively Q-switched tunable single-longitudinal-mode 2 µm Tm:YAP laser using a transversally chirped volume Bragg grating

“…5). Nonetheless the NesCOPO could be arbitrarily tuned to any desired wavelength by combining piezoelectric actuation and temperature control, the spectral purity was almost Fourier-transform-limited, and a spectrum of ammonia near 10.4 µm was recorded [22]. One of the positive outcomes of these experiments involving the first version of the Tm:YAP laser was the very good reproducibility of the results over the years, secured by the long lifetime of components in the infrared and the good opto-mechanical implementation made by the partner company.…”

Optical parametric sources from the SWIR to the LWIR for standoff gas sensing

Mid-infrared frequency conversion in quasiphase matched semiconductors