A test of the scaling of the extent of the thinnest vertical temperature gradients, in the near-bottom\ud boundary layer on the Oregon shelf, shows that the Batchelor wave number determines the cutoff wave\ud number in vertical temperature gradient spectra. In combination with previous results, in other words,\ud this test shows that the smallest scale at which significant temperature variance due to turbulence exists at\ud any given point in the ocean is determined by the Batchelor scale, (vD²/ε)^(1/4), v being the kinematic viscosity, D\ud the thermal diffusivity, and ε the kinetic energy dissipation per unit mass. Stress measurements\ud in the viscous sublayer provide estimates of ε
Oceanic internal waves are closely linked to turbulence. Here a relationship between vertical wave n...
Clear identification of the relatively weak superadiabatic potential temperature gradient in the oce...
Measurements of small-scale velocity and temperature fluctuations have been made from the research s...
Tests of a formula derived for the cutotT wave number of vertical temperature gradient spectra, usi...
In two experimental operations in deep water off the west coast of British Columbia, temperature and...
Our understanding of temperature dissipation rate χ within the upper ocean boundary layer, which is ...
Small-scale turbulence parameters in the layer below a wind-blown surface of the ocean can be measur...
Microstructure measurements were collected using an autonomous freely rising profiler under a variet...
A procedure for estimating thermal variance dissipation rate χ[subscript]T by scaling the inertial-c...
We have carried out an experimental study of the turbulence kinetic energy dissipation rate (e), tem...
This study makes direct measurements of turbulent fluxes in the mixed layer in order to close heat a...
Vertical profiles of electrical conductivity and turbulent velocity fluctuations in the 10-m surface...
We compare estimates of the turbulent dissipation rate, , obtained independently from coincident me...
Ocean turbulence dissipation rate is estimated either by means of microstructure shear measurements,...
A reexamination of turbulence dissipation measurements from the equatorial Pacific shows that the tu...
Oceanic internal waves are closely linked to turbulence. Here a relationship between vertical wave n...
Clear identification of the relatively weak superadiabatic potential temperature gradient in the oce...
Measurements of small-scale velocity and temperature fluctuations have been made from the research s...
Tests of a formula derived for the cutotT wave number of vertical temperature gradient spectra, usi...
In two experimental operations in deep water off the west coast of British Columbia, temperature and...
Our understanding of temperature dissipation rate χ within the upper ocean boundary layer, which is ...
Small-scale turbulence parameters in the layer below a wind-blown surface of the ocean can be measur...
Microstructure measurements were collected using an autonomous freely rising profiler under a variet...
A procedure for estimating thermal variance dissipation rate χ[subscript]T by scaling the inertial-c...
We have carried out an experimental study of the turbulence kinetic energy dissipation rate (e), tem...
This study makes direct measurements of turbulent fluxes in the mixed layer in order to close heat a...
Vertical profiles of electrical conductivity and turbulent velocity fluctuations in the 10-m surface...
We compare estimates of the turbulent dissipation rate, , obtained independently from coincident me...
Ocean turbulence dissipation rate is estimated either by means of microstructure shear measurements,...
A reexamination of turbulence dissipation measurements from the equatorial Pacific shows that the tu...
Oceanic internal waves are closely linked to turbulence. Here a relationship between vertical wave n...
Clear identification of the relatively weak superadiabatic potential temperature gradient in the oce...
Measurements of small-scale velocity and temperature fluctuations have been made from the research s...