Results 211 to 220 of about 25,059 (249)
Compact gas cell for simultaneous detection of atmospheric aerosol optical properties based on photoacoustic spectroscopy and integrating sphere scattering enhancement. [PDF]
PhotoacousticsLi Z +7 more
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Analytical Chemistry, 1983
The subject of photoacoustic spectroscopy is reviewed. The basic areas of instrumentation (excitation sources, acoustic cells, and acoustic detectors) are described, and the specific advantages of various designs and techniques are discussed. Results are presented to highlight the applicability of photoacoustic spectroscopy to a wide variety of ...
Gary A. West +3 more
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The subject of photoacoustic spectroscopy is reviewed. The basic areas of instrumentation (excitation sources, acoustic cells, and acoustic detectors) are described, and the specific advantages of various designs and techniques are discussed. Results are presented to highlight the applicability of photoacoustic spectroscopy to a wide variety of ...
Gary A. West +3 more
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Fourier Transform Photoacoustic Spectroscopy
Applied Physics Letters, 1978Visible-light Fourier-transform photoacoustic spectroscopy (FTPAS) of Nd : glass is reported. The combined throughput and multiplex advantages of the interferometer significantly reduce the data collection time and/or improve the signal-to-noise ratio.
Michael M. Farrow +2 more
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Resonant Photoacoustic Spectroscopy
1983Nearly one hundred years after Bells discovery, resonant photoacoustic spectroscopy awoke from a long sleep. The introduction of lasers as radiation sources has led to rapid development of photoacoustics in the last ten years. Experimental results obtained under carefully optimized conditions are now in good agreement with theory of resonators.
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Standoff photoacoustic spectroscopy
Applied Physics Letters, 2008Here, we demonstrate a variation of photoacoustic spectroscopy that can be used for obtaining spectroscopic information of surface adsorbed chemicals in a standoff fashion. Pulsed light scattered from a target excites an acoustic resonator and the variation of the resonance amplitude as a function of illumination wavelength yields a representation of ...
C. W. Van Neste +2 more
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Nonlinear Photoacoustic Spectroscopy
Second International Meeting on Photoacoustic Spectroscopy, 1981The capabilities of the photoacoustic technique to measure small absorptivities is now well documented. This capability is now being exploited to measure nonlinear absorption in a variety of materials. The potentials of this new non-linear spectroscopic techniques are just beginning to be realized.
Eric W. Van Stryland +3 more
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Photoacoustic Overtone Spectroscopy
Second International Meeting on Photoacoustic Spectroscopy, 1981The introduction of intracavity dye-laser photoacoustic detection inaugurated the, hitherto unexplored, area of gas-phase vibrational overtone molecular spectroscopy.1–3 We have used this technique to detect extremely weak overtone absorptions in more than 50 molecular systems in the spectral region 1000–400 nm.
K. V. Reddy, M. J. Berry
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Photoacoustic Correlation Spectroscopy
Optical Remote Sensing of the Atmosphere, 1990Photoacoustic (PA) correlation spectroscopy offers some advantages over conventional correlation spectroscopy in that the PA detector requires no cooling. The method has been proposed earlier (Perlmutter, *et al) , but was not considered sensitive enough to warrant further work.
P. Shakkottai, J. S. Margolis
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Standoff Photoacoustic Spectroscopy of Explosives
Applied Spectroscopy, 2016Detection and identification of unknown and possibly hazardous materials is a vital area of research to which infrared (IR) spectroscopy is ideally suited. Infrared absorption spectra can be measured with many sensing paradigms of which photoacoustic spectroscopy (PAS) is a sensitive and flexible variant.
Logan S, Marcus +2 more
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Photoacoustic Spectroscopy — Photoacoustic and Photothermal Effects
1990Definition. Photoacoustic (PA) or optoacoustic measurements in the original, strict sense comprise the detection of acoustic waves which arise from non-radiative de-excitation (radiationless transition) of the sample as a consequence of absorption of continuously amplitude-modulated light.
C. Buschmann, H. Prehn
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