Observations of nonlinear internal waves on the outer New England continental shelf during the summer Shelfbreak Primer study
John A. Colosi,Robert C. Beardsley,James F. Lynch,Glen Gawarkiewicz,Ching-Sang Chiu,Alberto Scotti +5 more
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In this article, an upward looking acoustic Doppler current profiler (ADCP) and two nearby thermistor chains were used to detect internal tides on the outer New England continental shelf during the summer Shelf Break Primer study conducted between July 26 and August 5, 1996.Abstract:
Observations are presented of nonlinear internal waves on the outer New England continental shelf during the summer Shelfbreak Primer study conducted between July 26 and August 5, 1996. Current and temperature measurements were made with an upward looking acoustic Doppler current profiler (ADCP) located on the 147 m isobath near the shelfbreak and three vertical thermistor moorings located upshelf. Data from the ADCP and two nearby thermistor chains show energetic internal tides propagating at roughly 0.9 m s 21 to the north-northwest, nearly perpendicular to the local topography with 10 -15 cm s 21 horizontal currents and 15-30 m vertical displacements. These waves evolve rapidly within a 5.8 km range into an undular internal tidal bore. Cross-isobath barotropic tidal currents, responsible for generating the internal tides are in the 5-12 cm s 21 range. The bore formation is highly variable. There is evidence of a correlation between internal tide steepening and a shelfbreak front jet orientation that is oppositely directed to the internal tide propagation. There is no correlation between steepening and the jet's vertical shear. Statistics of the undular bores show rms travel time fluctuations from 0.8 to 1.7 hours and average tidal bore durations from 12 to 9 hours. The average undular bore speed is 0.9 m s 21 , with an rms fluctuation of 0.4 m s 21 . The number of high-frequency waves in the bore varies from 0 to 8 near the shelfbreak and increases to 30 waves 26.7 km upshelf. The observed distribution function of temporal spacing between high-frequency internal waves is spread between 4 and 20 min.read more
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Internal solitons in the northeastern south China Sea. Part I: sources and deep water propagation
Steven R. Ramp,Tswen Yung Tang,Timothy F. Duda,James F. Lynch,Antony K. Liu,Ching-Sang Chiu,Frederick L. Bahr,Hyoung-Rok Kim,Yiing Jang Yang +8 more
TL;DR: In this paper, a moored array of current, temperature, conductivity, and pressure sensors was deployed across the Chinese continental shelf and slope in support of the Asian Seas International Acoustics Experiment.
Journal ArticleDOI
Internal tide and nonlinear internal wave behavior at the continental slope in the northern south China Sea
Timothy F. Duda,James F. Lynch,Jim Irish,Robert C. Beardsley,Steven R. Ramp,Ching-Sang Chiu,Tswen Yung Tang,Yiing Jang Yang +7 more
TL;DR: A field program to measure acoustic propagation characteristics and physical oceanography was undertaken in April and May 2001 in the northern South China Sea as discussed by the authors, where 21 moorings in water of 350- to 71-m depth near the continental slope.
Internal Solitons in the Northeastern South China Sea
Antony K. Liu,Hyoung-Rok Kim,Steven R. Ramp,Ching-Sang Chiu,Frederick L. Bahr,James F. Lynch,Tswen Yung Tang,Timothy F. Duda,Ying-Jang Yang +8 more
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Remote sensing evidence for baroclinic tide origin of internal solitary waves in the northeastern South China Sea
TL;DR: In this article, the authors presented evidence for baroclinic tide origin of internal solitary waves (ISWs) in the northeastern South China Sea, based on 116 internal wave packets observed in satellite images from 1995 to 2001.
Journal ArticleDOI
Internal wave detection using the Moderate Resolution Imaging Spectroradiometer (MODIS)
TL;DR: In this article, the authors describe the use of MODIS for high-frequency nonlinear internal wave detection, presents the results of a survey that detected 3581 internal wave occurrences in MODIS imagery over the period between August 2002 through May 2004, and discusses ways MODIS images can be used to improve the study of internal waves.
References
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Journal ArticleDOI
On internal tide generation models
TL;DR: In this article, a linear generation model for internal tides over large topographic features such as continental slopes is discussed, with the objects of making the procedures simpler and more adaptable to oceanic situations than heretofore.
Journal ArticleDOI
Near-Inertial Wave Propagation In Geostrophic Shear
TL;DR: In this article, an approximate dispersion relation for near-inertial internal waves propagating in geostrophic shear is formulated that includes straining by the mean flow shear.
Journal ArticleDOI
The Sulu Sea Internal Soliton Experiment
TL;DR: In this paper, the results of a comprehensive study of internal solitons generated in the Sulu Sea in the Philippines by intense tidal flow over a sharp bathymetric feature were presented.
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An overview of the 1995 SWARM shallow-water internal wave acoustic scattering experiment
J.R. Apel,Mohsen Badiey,Ching-Sang Chiu,Steven Finette,Robert H. Headrick,John N. Kemp,James F. Lynch,Arthur E. Newhall,Marshall H. Orr,Bruce H. Pasewark,Dirk Tielbuerger,Altan Turgut,K. von der Heydt,Steve Wolf +13 more
TL;DR: The SWARM experiment as mentioned in this paper studied both acoustic propagation through and scattering by the linear and nonlinear internal waves found on the Mid-Atlantic Bight continental shelf, as well as the physical oceanography of the internal wavefield.
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Numerical experiments of internal wave generation by strong tidal flow across a finite amplitude bank edge
TL;DR: In this paper, an idealized numerical experiments of strong tidal flow of a stratified fluid across a finite amplitude bank edge are presented. But the model is two-dimensional, with spatial variation in the vertical and cross-bank directions only.