The Depth Averaged Spectral Fluxes Over The Submesoscale Range In The

The Depth‐averaged Spectral Fluxes Over The Submesoscale Range In The

The Depth‐averaged Spectral Fluxes Over The Submesoscale Range In The
850×582

A Depth Averaged Budget Of Wavenumber Domain Spectral Fluxes Pk In

A Depth Averaged Budget Of Wavenumber Domain Spectral Fluxes Pk In
613×359

Os Spectral Signatures Of The Tropical Pacific Dynamics From Model

Os Spectral Signatures Of The Tropical Pacific Dynamics From Model
537×835

Os Spectral Signatures Of The Tropical Pacific Dynamics From Model

Os Spectral Signatures Of The Tropical Pacific Dynamics From Model
529×543

A Spectra Of Kinetic Energy Ke Tendency Terms M 4 S −3 In The

A Spectra Of Kinetic Energy Ke Tendency Terms M 4 S −3 In The
850×847

Kinetic Energy Spectral Density For Box 8 Averaged Over 1000 M Depth

Kinetic Energy Spectral Density For Box 8 Averaged Over 1000 M Depth
640×640

Submesoscale Portion Of Vertical Component Of Buoyancy Flux For Both W

Submesoscale Portion Of Vertical Component Of Buoyancy Flux For Both W
850×389

Os Spectral Signatures Of The Tropical Pacific Dynamics From Model

Os Spectral Signatures Of The Tropical Pacific Dynamics From Model
879×667

Submesoscale Portion Of Advective Component Of Vertical Particle Flux

Submesoscale Portion Of Advective Component Of Vertical Particle Flux
850×389

Spectral Flux Density Components In Cold And Dry Left Plot And Warm

Spectral Flux Density Components In Cold And Dry Left Plot And Warm
736×529

Optical Depth Of The Best Model Over A Spectral Range From Xrays To

Optical Depth Of The Best Model Over A Spectral Range From Xrays To
574×574

A Yearly Time Series Of The Submesoscale Download Scientific Diagram

A Yearly Time Series Of The Submesoscale Download Scientific Diagram
850×1050

Os Spectral Signatures Of The Tropical Pacific Dynamics From Model

Os Spectral Signatures Of The Tropical Pacific Dynamics From Model
939×856

7 Averaged Spectral Levels At Source Levels At Various Frequencies And

7 Averaged Spectral Levels At Source Levels At Various Frequencies And
850×1153

Time Series Of The Spatial Median Of The Submesoscale Vertical Buoyancy

Time Series Of The Spatial Median Of The Submesoscale Vertical Buoyancy
850×953

Spectral Flux Density Of The Signal Photons Given By Eq 32 Solid

Spectral Flux Density Of The Signal Photons Given By Eq 32 Solid
680×1020

Contours Of The Magnitude Of The Depth Averaged Velocity U U 2

Contours Of The Magnitude Of The Depth Averaged Velocity U U 2
850×1178

A And B Depth Integrated Over The Top 500 M And Seasonally And

A And B Depth Integrated Over The Top 500 M And Seasonally And
850×1012

A Flux Spectral Function B Total Particle Fluxes Averaged Over The

A Flux Spectral Function B Total Particle Fluxes Averaged Over The
640×640

Spectral Flux Distribution And Polarization Spectrum Of Grb 191221b

Spectral Flux Distribution And Polarization Spectrum Of Grb 191221b
850×903

Spectral Fluxes Of Kinetic Energy In The Three Transects At 13‐m Depth

Spectral Fluxes Of Kinetic Energy In The Three Transects At 13‐m Depth
850×701

A Radially Averaged Power Spectrum And Depth Estimation Of Aeromagnetic

A Radially Averaged Power Spectrum And Depth Estimation Of Aeromagnetic
850×1169

A Spectral Kinetic Energy Flux Versus Total Wavenumber Estimated From

A Spectral Kinetic Energy Flux Versus Total Wavenumber Estimated From
850×917

A Spectral Energy Flux Rate P Defined By Eq 13 Averaged In The

A Spectral Energy Flux Rate P Defined By Eq 13 Averaged In The
850×395

Colour Online Spatiotemporally Averaged Spectral Energy Fluxes For

Colour Online Spatiotemporally Averaged Spectral Energy Fluxes For
787×1148

231206972 A Data Driven Approach For Parameterizing Submesoscale

231206972 A Data Driven Approach For Parameterizing Submesoscale
6285×2118

The Averaged Spectral Power Density Of The Radiation Flux At 1 µs After

The Averaged Spectral Power Density Of The Radiation Flux At 1 µs After
753×553

Optical Depth Of The 3 µm H 2 O Ice Feature Derived From The Spectral

Optical Depth Of The 3 µm H 2 O Ice Feature Derived From The Spectral
745×510

Time Series Of Modeled A Surface Heat Fluxes W M 2 B Mixed

Time Series Of Modeled A Surface Heat Fluxes W M 2 B Mixed
850×534

The Averaged Spectral Power Density Of The Radiation Flux At 1 µs After

The Averaged Spectral Power Density Of The Radiation Flux At 1 µs After
553×553

Os Spectral Signatures Of The Tropical Pacific Dynamics From Model

Os Spectral Signatures Of The Tropical Pacific Dynamics From Model
540×542

Optical Depth Covering Two Narrow 13 Ch 4 Spectral Regions In Band 2 Of

Optical Depth Covering Two Narrow 13 Ch 4 Spectral Regions In Band 2 Of
850×654

Averaged Spectrum For The Data In Fig 1 Observed In Fp4 In The

Averaged Spectrum For The Data In Fig 1 Observed In Fp4 In The
583×778

Spectral Flux Density Versus Time For E0 The Blue Colour Represents

Spectral Flux Density Versus Time For E0 The Blue Colour Represents
850×555

Frontiers Submesoscale Dynamics Accompanying The Kuroshio In The East

Frontiers Submesoscale Dynamics Accompanying The Kuroshio In The East
1299×896