Title :
Photoacoustic chemical sensing on a MEMS-based platform
Author :
Pellegrino, Paul M. ; Polcawich, Ronald G. ; Firebaugh, Samara L.
Author_Institution :
U.S. Army Res. Lab., Adelphi, MD, USA
Abstract :
This paper deals with the gas detection system (MEMS-based platform), which uses photoacoustic spectroscopy as a monitoring technique. One advantage of photoacoustic spectroscopy is that the photoacoustic signals scales inversely with the cross-sectional area of the acoustic cavity. This paper also deals with the MEMS acoustic cavity design which investigates multilayer stacking arrangements using several low temperature bonding schemes to allow for complete fabrication of acoustic structures present in macro-cell design. Results are presented describing the miniature photoacoustic cell capabilities, current MEMS microphone performance and initial cell designs based on transmission-line modeling.
Keywords :
gas sensors; micromechanical devices; microphones; multilayers; photoacoustic spectra; MEMS acoustic cavity design; MEMS microphone; acoustic structures; gas detection system; low temperature bonding; macrocell design; multilayer stacking arrangements; photoacoustic cell; photoacoustic chemical sensing; photoacoustic signals; photoacoustic spectroscopy; transmission line modeling; Acoustic signal detection; Bonding; Chemicals; Fabrication; Micromechanical devices; Monitoring; Nonhomogeneous media; Spectroscopy; Stacking; Temperature;
Conference_Titel :
Semiconductor Device Research Symposium, 2003 International
Print_ISBN :
0-7803-8139-4
DOI :
10.1109/ISDRS.2003.1272227
