Acousto-optic tunable filters: fundamentals and applications as applied to chemical analysis techniques

Acousto-optic tunable filters: fundamentals and applications as applied to chemical analysis techniques

Acousto-optic tunable filters (AOTFs) are solid state wavelength tunable optical filters. Modern AOTFs are constructed by attaching piezoelectric transducers to an appropriate crystalline material. By driving the transducers at the appropriate frequency, a series of perturbations traverse the materi...

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Bibliographic Details
Published in:Progress in Quantum Electronics Vol. 28; no. 2; pp. 67 - 87
Main Authors: Bei, Ling, Dennis, Glenn I., Miller, Heather M., Spaine, Thomas W., Carnahan, Jon W.
Format: Book Review Journal Article
Language:English
Published: Oxford Elsevier Ltd 2004
Elsevier Science
Subjects:
Acousto-optic tunable filters
Analytical chemistry
Atomic spectrometry
Chemical analysis
Chemical analysis and related physical methods of analysis
Chemistry
Exact sciences and technology
Filters, zone plates, and polarizers
Fluorescence spectrometry
Fundamental areas of phenomenology (including applications)
General, instrumentation
Imaging
Molecular spectrometry
Optical elements, devices, and systems
Optics
Physics
Raman spectrometry
Spectrophotometry
Molecular spectrometry
Chemical analysis
Acousto-optic tunable filters
Imaging
Atomic spectrometry
Raman spectrometry
Spectrophotometry
Fluorescence spectrometry
Optical filters
Fluorescence spectroscopy
Optical spectrometry
Acousto-optical filters
Tunable filter
Imagery
Raman spectroscopy
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Description
Summary:Acousto-optic tunable filters (AOTFs) are solid state wavelength tunable optical filters. Modern AOTFs are constructed by attaching piezoelectric transducers to an appropriate crystalline material. By driving the transducers at the appropriate frequency, a series of perturbations traverse the material. Interactions of photons with these perturbations allow the AOTF to selectively diffract a single narrow-bandpass wavelength. The wavelength may be varied by changing the applied frequency. The focus of this review is to detail chemical analysis applications of AOTFs. A brief historical background of AOTF development is presented. Mathematical and physical descriptions of AOTF behavior are summarized. Currently used materials and characteristics of these materials are described. AOTFs are compared with other wavelength selection devices including: monochromators, absorption filters, transmission filters and liquid crystal tunable filters. Atomic, molecular, fluorescence and Raman spectrometry applications, as well as the use of AOTFs, for remote and proximal imaging applications are highlighted. Lastly, the combination of AOTF and fiber optic technology to make a new device known as an integrated AOTF is considered.
ISSN:0079-6727
1873-1627
DOI:10.1016/S0079-6727(03)00083-1