wave-tracking experiment to assess nliw generation, structure, evolution and dissipation
DESCRIPTION
Moum. Wave-tracking Experiment to Assess NLIW Generation, Structure, Evolution and Dissipation Detection of NLIW by Seafloor Pressure Measurement. bottom landers with high-res pressure sensors. Named Waves Tracked Alfred Betty Carlton Debby Elvin Florence George Holly - PowerPoint PPT PresentationTRANSCRIPT
• Wave-tracking Experiment to Assess NLIW Generation, Structure, Evolution and Dissipation
• Detection of NLIW by Seafloor Pressure Measurement
bottom landers with high-res pressure sensors
Moum
Named Waves Tracked• Alfred• Betty• Carlton• Debby• Elvin• Florence• George• Holly• Isaac• Jasmine• Kevin• Lola• Mika• Natalie• Oscar • …• Anya
NLIWI/SW06R/V Oceanus30 July – 26 Aug 2006
Science Party
Jim Moum OSUAlexander Perlin OSUGreg Avicola OSUEmily Shroyer OSUSam Kelly OSUMike Neeley-Brown OSURay Kreth OSU
Karen Fisher Los AlamosDezhang Chu WHOIDoris Leong DalhousiePaul Heslinga Falmouth Academy
approaching wave train – < 5 kt windsview from flying bridge
Mika
Tonya / wave group interaction group-group interactions
wave-wave interactions
SW37
SW38
SW39SW40
Oops! accidental sound source 02 August 2006 23:04:54
high turbulence at interface
interfacial jets?
Shipboard profiling measurements
Varicose waveJasmine
Seafloor pressure measurements of nonlinear internal waves, submitted to J.Phys.Oceanogr., December 2006 (Moum & Nash)
Shoaling nonlinear internal waves: transition from depression to elevation waves. in prep, J.Phys.Oceanogr. (Shroyer, Moum & Nash)
Emily Shroyer
Knorr
Knorr
Wave Florence
120 kHz backscatter
successive transits along 300/120, 0.5 nm SW of main array axis
Wave Florence
pre-wave state
120 kHz backscatter
successive transits along 300/120, 0.5 nm SW of main array axis
Wave Florence
1200 kHz backscatter
successive transits along 300/120, 0.5 nm SW of main array axis
Wave Florence
Wave Florence
Wave Florence
Wave Florence
Wave Florence
Wave Florence
Wave Florence
Florence time/position diagrammean propagation speed 0.90 ms-1
Florence’s speed projected backward in time
We project the measured locations of the wave backward in space/time using the wave speed determined from the slope of the wave’s x-t plot to get an idea of what/where the wave was before it was clearly a wave. The result is the pre-wave state indicated several slides previous to this. This is helping us to decide what to look for in the generation region.
pre-wave state
Wave Florence
Summary Topics of Interest
• wave pressure signature – submitted (Moum/Nash)
• shoaling / sign change – in prep. (Shroyer/Moum/Nash)
• physical structure – interfacial jets?
• energetics: evolution / transport / dissipation
• generation: bore / wave transition
• varicose waves
• wave-wave / group-group interactions