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1.
Appl Phys B ; 74(1): 95-9, 2002 Jan.
Article in English | MEDLINE | ID: mdl-11911164

ABSTRACT

We report the first application of pulsed, near-room-temperature quantum cascade laser technology to the continuous detection of biogenic CO production rates above viable cultures of vascular smooth muscle cells. A computer-controlled sequence of measurements over a 9-h period was obtained, resulting in a minimum detectable CO production of 20 ppb in a 1-m optical path above a standard cell-culture flask. Data-processing procedures for real-time monitoring of both biogenic and ambient atmospheric CO concentrations are described.


Subject(s)
Carbon Monoxide/analysis , Carbon Monoxide/metabolism , Environmental Monitoring/instrumentation , Lasers , Muscle, Smooth, Vascular/metabolism , Spectrophotometry, Infrared , Air Conditioning , Animals , Cells, Cultured , Environmental Monitoring/methods , Life Support Systems/instrumentation , Muscle, Smooth, Vascular/cytology , Rats , Signal Processing, Computer-Assisted , Temperature
2.
Appl Phys B ; 75(2-3): 351-7, 2002.
Article in English | MEDLINE | ID: mdl-12599401

ABSTRACT

Pulsed thermoelectrically cooled QC-DFB lasers operating at 15.6 micrometers were characterized for spectroscopic gas sensing applications. A new method for wavelength scanning based on repetition rate modulation was developed. A non-wavelength-selective pyroelectric detector was incorporated in the sensor configuration giving the advantage of room-temperature operation and low cost. Absorption lines of CO2 and H2O were observed in ambient air, providing information about the concentration of these species.


Subject(s)
Atmosphere/chemistry , Carbon Dioxide/analysis , Environmental Monitoring/instrumentation , Lasers , Water/analysis , Electricity , Equipment Design , Gases/analysis , Quantum Theory , Spectrophotometry, Infrared/instrumentation
3.
Opt Lett ; 27(21): 1902-4, 2002 Nov 01.
Article in English | MEDLINE | ID: mdl-18033396

ABSTRACT

A new approach to detecting a weak photoacoustic signal in a gas medium is described. Instead of a gas-filled resonant acoustic cavity, the sound energy is accumulated in a high- Q crystal element. Feasibility experiments utilizing a quartz-watch tuning fork demonstrate a sensitivity of 1.2x10(-7) cm(-1) W/ radicalHz . Potential further developments and applications of this technique are discussed.

4.
Appl Opt ; 40(30): 5522-9, 2001 Oct 20.
Article in English | MEDLINE | ID: mdl-18364839

ABSTRACT

A spectroscopic gas sensor for nitric oxide (NO) detection based on a cavity ringdown technique was designed and evaluated. A cw quantum-cascade distributed-feedback laser operating at 5.2 mum was used as a tunable single-frequency light source. Both laser-frequency tuning and abrupt interruptions of the laser radiation were performed through manipulation of the laser current. A single ringdown event sensitivity to absorption of 2.2 x 10(-8) cm(-1) was achieved. Measurements of parts per billion (ppb) NO concentrations in N(2) with a 0.7-ppb standard error for a data collection time of 8 s have been performed. Future improvements are discussed that would allow quantification of NO in human breath.

5.
Appl Phys B ; 72(7): 859-63, 2001 May.
Article in English | MEDLINE | ID: mdl-11795325

ABSTRACT

Two configurations of a continuous wave quantum cascade distributed feedback laser-based gas sensor for the detection of NO at a parts per billion (ppb) concentration level, typical of biomedical applications, have been investigated. The laser was operated at liquid nitrogen temperature near lambda = 5.2 microns. In the first configuration, a 100 m optical path length multi-pass cell was employed to enhance the NO absorption. In the second configuration, a technique based on cavity-enhanced spectroscopy (CES) was utilized, with an effective path length of 670 m. Both sensors enabled simultaneous analysis of NO and CO2 concentrations in exhaled air. The minimum detectable NO concentration was found to be 3 ppb with a multi-pass cell and 16 ppb when using CES. The two techniques are compared, and potential future developments are discussed.


Subject(s)
Breath Tests/instrumentation , Nitric Oxide/analysis , Breath Tests/methods , Carbon Dioxide/analysis , Evaluation Studies as Topic , Lasers , Quantum Theory , Spectrum Analysis , Water/analysis
6.
Laser Phys ; 11(1): 39-49, 2001 Jan.
Article in English | MEDLINE | ID: mdl-12143896

ABSTRACT

Novel pulsed and cw quantum cascade distributed feedback (QC-DFB) lasers operating near lambda=8 micrometers were used for detection and quantification of trace gases in ambient air by means of sensitive absorption spectroscopy. N2O, 12CH4, 13CH4, and different isotopic species of H2O were detected. Also, a highly selective detection of ethanol vapor in air with a sensitivity of 125 parts per billion by volume (ppb) was demonstrated.


Subject(s)
Air Pollution, Indoor/analysis , Environmental Monitoring/instrumentation , Lasers , Spectrophotometry, Atomic/instrumentation , Environmental Monitoring/methods , Equipment Design , Ethanol/analysis , Evaluation Studies as Topic , Gases/analysis , Methane/analysis , Nitrous Oxide/analysis , Quantum Theory , Temperature , Water/analysis
7.
Appl Opt ; 39(24): 4425-30, 2000 Aug 20.
Article in English | MEDLINE | ID: mdl-11543546

ABSTRACT

A variable duty cycle quasi-cw frequency scanning technique was applied to reduce thermal effects resulting from the high heat dissipation of type I quantum-cascade lasers. This technique was combined with a 100-m path-length multipass cell and a zero-air background-subtraction technique to enhance detection sensitivity to a parts-in-10(9) (ppb) concentration level for spectroscopic trace-gas detection of CH4, N2O, H2O, and C2H5OH in ambient air at 7.9 micrometers. A new technique for analysis of dense high resolution absorption spectra was applied to detection of ethanol in ambient air, yielding a 125-ppb detection limit.


Subject(s)
Air Pollution, Indoor/analysis , Environmental Monitoring/instrumentation , Gases/analysis , Lasers , Spectrophotometry, Atomic/instrumentation , Equipment Design , Ethanol/analysis , Evaluation Studies as Topic , Linear Models , Methane/analysis , Nitrous Oxide/analysis , Temperature , Water/analysis
8.
Appl Opt ; 39(36): 6866-72, 2000 Dec 20.
Article in English | MEDLINE | ID: mdl-18354700

ABSTRACT

A pulsed quantum-cascade distributed feedback laser operating at near room temperature was used for sensitive high-resolution IR absorption spectroscopy of ambient air at a wavelength of approximately 8 microm. Near-transform-limited laser pulses were obtained owing to short (approximately 5-ns) current pulse excitation and optimized electrical coupling. Fast and slow computer-controlled frequency scanning techniques were implemented and characterized. Fast computer-controlled laser wavelength switching was used to acquire second-derivative absorption spectra. The minimum detectable absorption was found to be 3 x 10(-4) with 10(5) laser pulses (20-kHz repetition rate), and 1.7 x 10(-4) for 5 x 10(5) pulses, based on the standard deviation of the linear regression analysis.

9.
Opt Lett ; 24(23): 1762-4, 1999 Dec 01.
Article in English | MEDLINE | ID: mdl-11543189

ABSTRACT

A quantum-cascade laser operating at a wavelength of 8.1 micrometers was used for high-sensitivity absorption spectroscopy of methane (CH4). The laser frequency was continuously scanned with current over more than 3 cm-1, and absorption spectra of the CH4 nu 4 P branch were recorded. The measured laser linewidth was 50 MHz. A CH4 concentration of 15.6 parts in 10(6) ( ppm) in 50 Torr of air was measured in a 43-cm path length with +/- 0.5-ppm accuracy when the signal was averaged over 400 scans. The minimum detectable absorption in such direct absorption measurements is estimated to be 1.1 x 10(-4). The content of 13CH4 and CH3D species in a CH4 sample was determined.


Subject(s)
Carbon Isotopes/analysis , Lasers , Methane/analysis , Atmosphere/chemistry , Computer Simulation , Models, Chemical , Spectrophotometry, Infrared/instrumentation
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