Sixty Years Studying Wave Propagation in Random Media at the Applied Physics Laboratory

Ocean acoustics has been a useful avenue for testing evolving theories for Wave Propagation in Random Media (WPRM). These theories generally assume that the index of refraction statistics are stable in space and time, an assumption proven reasonably true in the deep ocean for acoustic paths away fro...

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Main Authors: Ewart, Terry E., Rouseff, Daniel
Format: Text
Language:unknown
Published: PDXScholar 2015
Subjects:
Electrical and Computer Engineering
Arctic
Online Access:https://pdxscholar.library.pdx.edu/ece_fac/337
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spelling ftportlandstate:oai:pdxscholar.library.pdx.edu:ece_fac-1340 2023-05-15T15:07:28+02:00 Sixty Years Studying Wave Propagation in Random Media at the Applied Physics Laboratory Ewart, Terry E. Rouseff, Daniel 2015-09-01T07:00:00Z https://pdxscholar.library.pdx.edu/ece_fac/337 unknown PDXScholar https://pdxscholar.library.pdx.edu/ece_fac/337 Electrical and Computer Engineering Faculty Publications and Presentations Electrical and Computer Engineering text 2015 ftportlandstate 2022-01-09T19:43:08Z Ocean acoustics has been a useful avenue for testing evolving theories for Wave Propagation in Random Media (WPRM). These theories generally assume that the index of refraction statistics are stable in space and time, an assumption proven reasonably true in the deep ocean for acoustic paths away from boundaries. In the present work, results from 60 years of theoretical and experimental WPRM research at the University of Washington's Applied Physics Laboratory (APL) are reviewed. The first experiment was performed in 1959 to test theories for amplitude fluctuations based on the Born approximation. The Rytov approximation (from Russian literature) for calculating the log-amplitude fluctuations was also evaluated. Conclusion: neither applied. Experiments in 1971 and 1977 measured acoustic fluctuation statistics for an 18 km acoustic path at sonar-relevant frequencies, 2–13 kHz. A 1985 experiment under Arctic ice used 2–16 kHz signals over a 6 km path. These experiments are discussed together with theoretical issues based on the Moment Equation method to provide one viewpoint on the history of ocean acoustic WPRM. The following translation of Voltaire is appropriate: "The ancients when reasoning about physics without the enlightenment of experiments are like blind men explaining the nature of colors to other blind men." Text Arctic Portland State University: PDXScholar Arctic
institution Open Polar
collection Portland State University: PDXScholar
op_collection_id ftportlandstate
language unknown
topic Electrical and Computer Engineering
spellingShingle Electrical and Computer Engineering
Ewart, Terry E.
Rouseff, Daniel
Sixty Years Studying Wave Propagation in Random Media at the Applied Physics Laboratory
topic_facet Electrical and Computer Engineering
description Ocean acoustics has been a useful avenue for testing evolving theories for Wave Propagation in Random Media (WPRM). These theories generally assume that the index of refraction statistics are stable in space and time, an assumption proven reasonably true in the deep ocean for acoustic paths away from boundaries. In the present work, results from 60 years of theoretical and experimental WPRM research at the University of Washington's Applied Physics Laboratory (APL) are reviewed. The first experiment was performed in 1959 to test theories for amplitude fluctuations based on the Born approximation. The Rytov approximation (from Russian literature) for calculating the log-amplitude fluctuations was also evaluated. Conclusion: neither applied. Experiments in 1971 and 1977 measured acoustic fluctuation statistics for an 18 km acoustic path at sonar-relevant frequencies, 2–13 kHz. A 1985 experiment under Arctic ice used 2–16 kHz signals over a 6 km path. These experiments are discussed together with theoretical issues based on the Moment Equation method to provide one viewpoint on the history of ocean acoustic WPRM. The following translation of Voltaire is appropriate: "The ancients when reasoning about physics without the enlightenment of experiments are like blind men explaining the nature of colors to other blind men."
format Text
author Ewart, Terry E.
Rouseff, Daniel
author_facet Ewart, Terry E.
Rouseff, Daniel
author_sort Ewart, Terry E.
title Sixty Years Studying Wave Propagation in Random Media at the Applied Physics Laboratory
title_short Sixty Years Studying Wave Propagation in Random Media at the Applied Physics Laboratory
title_full Sixty Years Studying Wave Propagation in Random Media at the Applied Physics Laboratory
title_fullStr Sixty Years Studying Wave Propagation in Random Media at the Applied Physics Laboratory
title_full_unstemmed Sixty Years Studying Wave Propagation in Random Media at the Applied Physics Laboratory
title_sort sixty years studying wave propagation in random media at the applied physics laboratory
publisher PDXScholar
publishDate 2015
url https://pdxscholar.library.pdx.edu/ece_fac/337
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_source Electrical and Computer Engineering Faculty Publications and Presentations
op_relation https://pdxscholar.library.pdx.edu/ece_fac/337
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