Copyrght 200((6 by the American Geophysical Unio. application of the ...... For waves advected by a counter ance inside the 6S for wave components with initial.
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1. REPORT DATE (DD-MM-YYYY) 13-07-2007
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An experimental investigation of wave measurements using a dual-beam interferometer: Gulf Stream as a surface wave guide
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0601153N 6. AUTHORIS)
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Paul A. Hwang, Jakov V. Toporkov, Mark A. Sletten, Douglas Lamb, Dragana Perkovic
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73-6628-06-5 8. PERFORMING ORGANIZATION
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Naval Research Laboratory Oceanography Division Stennis Space Center, MS 39529-5004
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Arlington, VA 22217-5660
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Approved for public release, distribution is unlimited.
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14. ABSTRACT A dual-beam interferometric synthetic aperture radar measures remotely two radial components of the ocean surface current from a single fight pass. Combining two passes over the same area, all three orthogonal components of the surface velocity can be retrieved. An experiment is conducted near the Gulf Stream (GS) boundary. A sharp change of the surface velocity of about I m/s over a 500 m lateral distance is measured. The wind and wave condition is dominated by a 14-s swell system and low wind velocity. The wave variance inside GS is about twice the wave variance outside the GS in the present data set. The difference in the wave variance is considerably higher than that can be expected from wave-current interaction. An ocean current system with strong shears such as the GS is a wave guide and can trap waves with the right combinations of wavelengths and propagation directions. Numerical calculations suggest that the wave properties of the data set may satisfy the conditions of wave trapping by the GS. The standing wave pattern on the GS side of the sharp velocity front, indicative of the long swell bouncing offthe current front, also offers support for the wave guide hypothesis. In this respect, the Gulf Stream can be considered the nature's hydraulic breakwater that can attenuate about 50% ofthe incident wave energy generated by storms. Its role in protecting the U.S. coastlines in the Atlantic Ocean cannot be overstated.
15. SUBJECT TERMS
wave; measurement; mapping; interferometer; Gulf Stream
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Paul Hwang 19b. TELEPHONE NUMBER (include area code)
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JOURNAL OF GEOPHYSICAL RESEARCII. VOL. 111, C09014, doi:I0.1029'2006JC003482. 2006
Full
Article
An experimental investigation of wave measurements using a dual-beam interferometer: Gulf Stream as a surface wave guide Paul A. Hwang.' Jakov V. Toporkov,' Mark A. Sletten,' Douglas Lamb.' 2 and Dragana Perkovic Reccived 9 January 2006I; rce ised "2 May 2006; accepted 9 June 2006; published 13 September 2006.
[I] A dual-beam interferometric synthetic aperture radar measures remotely two radial components of the ocean surface current from a single flight pass. Combining two passes over the same area, all three orthogonal components of the surface velocity can be retrieved. An experiment is conducted near the Gulf Stream (GS) boundary. A sharp
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change of the surface velocity of about 1 m/s over a 500 m lateral distance is measured. The wind and wave condition is dominated by a 14-s swell system and low wind velocity. The wave variance inside GS is about twice the wave variance outside the GS in the present data set. The difference in the wave variance is considerably higher than that can
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be expected from wave-current interaction. An ocean current system with strong shears
1)
such as the GS is a wave guide and can trap waves with the right combinations of wavelengths and propagation directions. Numerical calculations suggest that the wave
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properties of the data set may satisfy the conditions of wave trapping by the CS. The
