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Thursday, July 9, 2020 | History

2 edition of Acoustic fluctuations due to shallow thermal microstructure found in the catalog.

Acoustic fluctuations due to shallow thermal microstructure

by James Burgess Hagen

  • 277 Want to read
  • 36 Currently reading

Published by Naval Postgraduate School in Monterey, California .
Written in English

    Subjects:
  • Oceanography

  • ID Numbers
    Open LibraryOL25326939M

      While the source of scatter remains unclear in Figure 1a due to poor matching between kHz ship‐board sounder data and microstructure data collected meters behind the ship, the kHz echogram gives a striking visual example of how well acoustic scatter correlates with temperature by: Acoustic tomography in a shallow ultrasonic waveguide is demonstrated at the laboratory scale between two source-receiver arrays. At a 1/1, scale, the waveguide represents a km-long, m.

      In situ measurements of the bubble field within wakes generated by a small motorboat show that the bubble field, shortly after the initial turbulent generation period, consists mainly of bubbles with radii between 20 and μm. The subsequent dispersion of the wake field can be described using a model that includes bubble buoyancy and dissolution only, and the air volume fraction within the Cited by:   Purchase Thermal and Acoustic Insulation - 1st Edition. Print Book & E-Book. ISBN , Book Edition: 1.

    Environmental sensors moored on the New Jersey continental shelf tracked constant density surfaces (isopycnals) for 35 days in the summer of Sound-speed fluctuations from internal-wave vertic Cited by: Internal waves of a given strength will produce acoustic effects that vary from water mass to water mass. Presented here is a means of predicting the strength of acoustic fluctuations due to.


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Acoustic fluctuations due to shallow thermal microstructure by James Burgess Hagen Download PDF EPUB FB2

Enter the password to open this PDF file: Cancel OK. File name:. Predicting Sound Phase and Amplitude Fluctuations Due to Microstructure in the Upper Ocean. [Herman Medwin] on *FREE* shipping on qualifying offers. Predicting Sound Phase and Amplitude Fluctuations Due to Microstructure in the Upper : Herman Medwin.

Taylor thermal microscales from spatial correlation analyses determined vertically across the thermocline varied from to cm.

Temporal stochastic analyses showed horizontal acoustic path losses were ten times vertical losses because of diffraction by: 2. Taylor thermal microscales from spatial correlation analyses determined vertically across the thermocline varied from to cm. The measured variance of the index of refraction ranged from x to xl Temporal stochastic analyses showed horizontal acoustic path losses were ten times vertical losses because of diffraction : James Burgess Hagen.

Acoustic fluctuations due to shallow water thermal microstructure / (Monterey, Calif.: Naval Postgraduate School, ), by James Burgess Hagen (page images at HathiTrust) Acoustic techniques for ocean pollution studies ; and their easy transferability to developing nations / (Washington: National Technical Information Service, [?]), by.

Download PDF: Sorry, we are unable to provide the full text but you may find it at the following location(s): ersitylibrary (external link)Author: James Burgess. Hagen. Acoustic Fluctuations Thermal Microstructure Shallow Water Thermal Mlcrostructure AtSTRACT fConMiMM on nrf» «Id«II naestMqr an«UtntHr»r Slack numkt) Simultaneous measurements of waves, orthogonal water particle velocities, temperature, conductivity and acoustic phase and amplitude measurements at 20 and ^O kHz overFile Size: 8MB.

Journal of Sound and Vibration () 64(3), SOUND AMPLITUDE FLUCTUATIONS DUE TO A TEMPERATURE MICROSTRUCTUREt N. CHOTIROS AND B. SMITH Department of Electronic and Electrical Engineering, University Birmingham, Birmingham B15 2TT, England (Received 10 Octoberand in revised,/m 9 January ) The experiments reported in this paper were carried out in a.

This paper reports measurements and analysis of thermal microstructure effects on ping-to-ping amplitude and phase variability of shallow-water direct-path acoustic propagation in. Books at Amazon.

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Acoustic fluctuations due to shallow-water internal waves. Oscillations of up to 20 dB in level with total duration of about 1 1/2 hours have been extensively seen in acoustic propagation experiments, and are due to internal waves. The transmission distances varied from 2 to 23 km in water 35 m deep, with frequency typically about 2 by: 4.

The mechanisms for temporal and spatial coherence loss are many, but include internal waves, ocean surface motion in shallow water acoustic waveguides, thermal microstructure and others.

The coherence loss of a wavefront, as described above for the ocean case, also applies to the case for biomédical ultrasonic imaging, with similar results Cited by: 5. Dynamic ocean processes produce small thermal variations that induce spatial and temporal variability in the ocean's index of refraction and in the spatial scale along an acoustic propagation path.

This paper reports measurements and analysis of thermal microstructure effects on ping-to-ping amplitude and phase variability of shallow-water direct-path acoustic propagation in the Author: R.W. Meredith, S.J. Stanic, R.R. Goodman, E.T. Kennedy, N.G. Pace. Acoustic transmission in this short‐range, high‐frequency regime is subject to weak scattering due to thermal microstructure.

The mean temperature at mid‐depth is near 4°C with superimposed microstructure. During some periods, the temperature gradients were strong enough to cause several dB of short‐term acoustic : Paul T. Arveson, J. Michael McKisic. When sound is transmitted in the sea the amplitude of the received signal is found to fluctuate.

Various causes of signal fluctuations are discussed a Cited by: 4. Effects of the Microstructure of Fibrous Media on their Acoustic Properties C. Peyrega*,1 and D. Jeulin1 1Center of Mathematical Morphology, Mathematics and Systems, Mines ParisTech *Charles Peyrega: 1Center of Mathematical Morphology, 35 Rue St-Honoré, Fontainebleau (France), [email protected] Abstract: This study is a part of the Silent WallA.

acoustic signal fluctuations caused by random medium inhomogeneities. The results of these measurements were shown to correlate acoustic signal phase variability with small-scale water column thermal variability and ocean swell conditions [12].

In Juneanother series of shallow-water broadband propagation measurements were conducted. The mechanisms for temporal and spatial coherence loss are many, but include internal waves, ocean surface motion in shallow water acoustic waveguides, thermal microstructure and others.

Ralph R. Goodman's 39 research works with citations and reads, including: Attenuation Measurements Across Surface-Ship Wakes and Computed Bubble Distributions and Void Fractions.

The effects of thermal aging of stainless steel weld-overlay claddings of nuclear reactor pressure vessels on the microstructure and hardness of the claddings were investigated using atom probe tomography and nanoindentation testing.

The claddings were aged at °C for periods of –10, by:. Epoxy resin/hollow glass microsphere (HGM) composite acoustic materials for potential applications in the acoustic and electronic fields were prepared with epoxy resin as the matrix and HGMs as the filler.

The effects of the HGM content on the sound propagation characteristics and dielectric properties of the composites were : Guangpeng Gao, Yan Hu, Hongyu Jia, Peng Liu, Peng Du, Dongyu Xu.The effect of temperature fluctuations on the attenuation of the transmitted pressure field and its mutual coherence is examined.

Experimental results are compared with theoretical estimates based on a solution of the stochastic Helmholtz equation in the parabolic or paraxial by: 2.

The amplitude of the resonance is reduced somewhat due to the small impedance mismatch between air and the metamaterial and also the inherent viscous and thermal effects in the heterogeneous structure, but the ability to significantly reduce the resonant frequency (or equivalently reduce the size of the resonator) is undoubtedly of significant Cited by: 3.