Photoacoustic spectroscopy using quantum-cascade lasers
- 1 February 1999
- journal article
- Published by Optica Publishing Group in Optics Letters
- Vol. 24 (3), 178-180
- https://doi.org/10.1364/ol.24.000178
Abstract
Photoacoustic spectra of ammonia and water vapor were recorded by use of a continuous-wave quantum-cascade distributed-feedback (QC-DFB) laser at with a 16-mW power output. The gases were flowed through a cell that was resonant at 1.6 kHz, and the QC-DFB source was temperature tuned over 35 nm for generation of spectra or was temperature stabilized on an absorption feature peak to permit real-time concentration measurements. A detection limit of 100 parts in by volume ammonia at standard temperature and pressure was obtained for a 1-Hz bandwidth in a measurement time of 10 min.
Keywords
This publication has 8 references indexed in Scilit:
- High-resolution (Doppler-limited) spectroscopy using quantum-cascade distributed-feedback lasersOptics Letters, 1998
- Continuous-wave and high-power pulsed operation of index-coupled distributed feedback quantum cascade laser at λ≈8.5 μmApplied Physics Letters, 1998
- Short wavelength (λ∼3.4 μm) quantum cascade laser based on strained compensated InGaAs/AlInAsApplied Physics Letters, 1998
- Sensitive absorption spectroscopy with a room-temperature distributed-feedback quantum-cascade laserOptics Letters, 1998
- Long wavelength ( ≃ 13 [micro sign]m) quantum cascade lasersElectronics Letters, 1998
- Infrared (4–11 μm) quantum cascade lasersSolid State Communications, 1997
- Geometrical optimization of a longitudinal resonant photoacoustic cell for sensitive and fast trace gas detectionReview of Scientific Instruments, 1996
- Sensitive intracavity photoacoustic measurements with a CO2 waveguide laserApplied Physics B Laser and Optics, 1990