Development of a MEMS-Scale Photoacoustic Chemical Sensor Using a Quantum Cascade Laser

Author

Holthoff, Ellen L. ; Heaps, David A. ; Pellegrino, Paul M.

Author_Institution

U.S. Army Res. Lab., Adelphi, MD, USA

Volume

10

Issue

3

fYear

2010

fDate

3/1/2010 12:00:00 AM

Firstpage

572

Lastpage

577

Abstract

The development of a microelectromechanical systems-scale photoacoustic chemical sensor is described. Specifically, both a pulsed and a modulated continuous wave quantum cascade laser were used to determine detection limits for dimethyl methylphosphonate (DMMP), a standard nerve gas simulant. These sources were continuously tunable from 9.3 to 10 Â¿m. We report a minimum detection level of 20 parts-per-billion (ppb) and exceptional agreement between the measured photoacoustic vibrational spectrum and the IR spectrum of DMMP. The results support the continued development of a miniaturized photoacoustic sensor.

Keywords

chemical sensors; infrared spectra; microsensors; photoacoustic spectroscopy; quantum cascade lasers; DMMP; IR spectrum; MEMS-scale photoacoustic chemical sensor; detection limit determination; dimethyl methylphosphonate; microelectromechanical system; modulated continuous wave quantum cascade laser; photoacoustic vibrational spectrum; standard nerve gas simulant; Biosensors; Chemical and biological sensors; Chemical industry; Chemical sensors; Laboratories; Optical interferometry; Pressure measurement; Quantum cascade lasers; Sensor systems; Spectroscopy; Microelectromechanical system (MEMS); photoacoustic spectroscopy (PAS); quantum cascade laser (QCL); sensor;

fLanguage

English

Journal_Title

Sensors Journal, IEEE

Publisher

ieee

ISSN

1530-437X

Type

jour

DOI

10.1109/JSEN.2009.2038665

Filename

5419276