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Theory of the photoacoustic effect with solids
Allan Rosencwaig,Allen Gersho +1 more
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In this article, a quantitative derivation for the acoustic signal in a photoacoustic cell in terms of the optical, thermal, and geometric parameters of the system is presented. And the theory predicts the dependence of the signal on the absorption coefficient of the solid, thereby giving a theoretical foundation for the technique of photoacoustical spectroscopy.Abstract:
When chopped light impinges on a solid in an enclosed cell, an acoustic signal is produced within the cell. This effect is the basis of a new spectroscopic technique for the study of solid and semisolid matter. A quantitative derivation is presented for the acoustic signal in a photoacoustic cell in terms of the optical, thermal, and geometric parameters of the system. The theory predicts the dependence of the signal on the absorption coefficient of the solid, thereby giving a theoretical foundation for the technique of photoacoustic spectroscopy. In particular, the theory accounts for the experimental observation that with this technique optical absorption spectra can be obtained for materials that are optically opaque.read more
Citations
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Thermal characterization of iron phosphate glasses for nuclear waste disposal
TL;DR: In this paper, the thermal properties of iron phosphate glasses with the following wt.% composition: 40Fe2O3 −60P2O5 were investigated for nuclear waste disposal.
Journal ArticleDOI
Stratum corneum studies with photoacoustic spectroscopy
Allan Rosencwaig,Eli Pines +1 more
TL;DR: This work has applied photoacoustic spectroscopy to the study of hydration and maturation of newborn rat stratum corneum and has obtained clean spectra in the 220 to 450 nm region indicative of a change in thermal diffusivity with increased hydration, and biochemical changes associated with the initial maturation period.
Journal ArticleDOI
Infrared photoacoustic spectroscopy of solids and liquids
TL;DR: In this article, the application of photoacoustic methods to vibrational spectroscopy on liquid and solid specimens is discussed, based on tunable CO2 lasers as radiation sources, examples are given to demonstrate the high sensitivity (sub-monolayer) and spectral resolution that can be achieved in the mid-infrared.
Journal ArticleDOI
Photoacoustic Signal Analysis for the Relaxation Study of Dibenzoilmethane
TL;DR: In this paper, the amplitude and phase of the photoacoustic signal generated in a dibenzoilmethane (DBM) sample were examined and the analysis of the PA signal for homogenous materials may provide information not only on optical absorption and thermal properties of the sample but also about lifetimes of the excited states involved and about the quantum yield of their formation.
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Physical and biological properties of a novel siloxane adhesive for soft tissue applications.
Darren James Wilson,D.H. Chenery,H.K. Bowring,Karen Wilson,Ryan C. Turner,J. Maughan,Paige West,C.W. Ansell +7 more
TL;DR: Results suggest that the in-house amino-propyltrimethoxysilane-methylenebisacrylamide siloxane system may be a useful adhesive for medical applications.
References
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Journal ArticleDOI
LXVIII. Upon the production of sound by radiant energy
TL;DR: The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science: Vol. 11, No. 71, pp. 510-528 as mentioned in this paper discusses the production of sound by radiant energy.
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Photoacoustic spectroscopy of solids
TL;DR: In this article, the opto- or photo-acoustic effect used in gas analysis has been extended to the study of solids, providing a simple method for obtaining information about optical absorptions and subsequent de-excitations in solids.
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Photoacoustic spectroscopy of biological materials.
TL;DR: In this paper, a new technique for performing optical spectroscopy on solids has been developed Photoacoustic spectra of cytochrome c and hemoglobin show how this technique can be used to obtain information about optical absorptions and subsequent deexcitations in solid biological materials, particularly those which cannot readily be studied by conventional means.