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Acoustic microscopy and nonlinear effects in pressurized superfluid helium

The operation of an acoustic microscope having a resolution of 15 mm has been demonstrated. It uses as a coupling medium superfluid /sup 4/He colder than 0.9 K and pressurized to greater than 20 bar. The microscope has been used to image objects that show little or no contrast on a scanning electron...

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Published in:	IEEE transactions on ultrasonics, ferroelectrics, and frequency control ferroelectrics, and frequency control, 1992-03, Vol.39 (2), p.204-211
Main Authors:	Moulthrop, A.A., Muha, M.S., Hadimioglu, B., Silva, C.P., Kozlowski, G.C.
Format:	Article
Language:	English
Subjects:	Acoustic propagation Acoustic waves Acoustics Attenuation Exact sciences and technology Frequency Fundamental areas of phenomenology (including applications) Helium Instruments Lenses Nonlinear acoustics Physics Scanning electron microscopy Signal resolution Ultrasonics, quantum acoustics, and physical effects of sound
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container_end_page	211
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container_title	IEEE transactions on ultrasonics, ferroelectrics, and frequency control
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creator	Moulthrop, A.A. Muha, M.S. Hadimioglu, B. Silva, C.P. Kozlowski, G.C.
description	The operation of an acoustic microscope having a resolution of 15 mm has been demonstrated. It uses as a coupling medium superfluid /sup 4/He colder than 0.9 K and pressurized to greater than 20 bar. The microscope has been used to image objects that show little or no contrast on a scanning electron microscope. In addition, the acoustic microscope has been used to study the properties of sound propagation in the coupling fluid. At low acoustic intensities, the coupling fluid has very low acoustic attenuation at the microscope's operating frequency (15.3 GHz), but near the focal point the acoustic intensity can be high enough that the helium behaves with extreme nonlinearity. In fact, this medium is capable of entering new regimes of nonlinear interaction. Plots of the received signal versus input power display a nearly complete source depletion at certain input power levels and a reconversion to the source frequency at higher power levels. Arguments that the process underlying this nonlinear behavior is harmonic generation are presented.< >
doi_str_mv	10.1109/58.139116
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It uses as a coupling medium superfluid /sup 4/He colder than 0.9 K and pressurized to greater than 20 bar. The microscope has been used to image objects that show little or no contrast on a scanning electron microscope. In addition, the acoustic microscope has been used to study the properties of sound propagation in the coupling fluid. At low acoustic intensities, the coupling fluid has very low acoustic attenuation at the microscope's operating frequency (15.3 GHz), but near the focal point the acoustic intensity can be high enough that the helium behaves with extreme nonlinearity. In fact, this medium is capable of entering new regimes of nonlinear interaction. Plots of the received signal versus input power display a nearly complete source depletion at certain input power levels and a reconversion to the source frequency at higher power levels. Arguments that the process underlying this nonlinear behavior is harmonic generation are presented.< ></abstract><cop>New York, NY</cop><pub>IEEE</pub><pmid>18263138</pmid><doi>10.1109/58.139116</doi><tpages>8</tpages></addata></record>
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source	IEEE Electronic Library (IEL) Journals
subjects	Acoustic propagation Acoustic waves Acoustics Attenuation Exact sciences and technology Frequency Fundamental areas of phenomenology (including applications) Helium Instruments Lenses Nonlinear acoustics Physics Scanning electron microscopy Signal resolution Ultrasonics, quantum acoustics, and physical effects of sound
title	Acoustic microscopy and nonlinear effects in pressurized superfluid helium
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