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[[File:Driftwood Expanse, Northern Washington Coast.png|thumb|350px|right|An expanse of [[driftwood]] along the northern [[coast]] of [[Washington state]].]]
[[File:Deep water wave after three periods.gif|thumb|350px|right|Stokes drift in deep water waves, with a [[wave length]] of about twice the water depth.
Click [[:Image:Deep water wave.gif|here]] for an animation (4.15 MB).<br>
''Description (also of the animation)'':<br>
The red circles are the present positions of massless particles, moving with the [[flow velocity]]. The light-blue line gives the [[path (topology)|path]] of these particles, and the light-blue circles the particle position after each [[wave period]]. The white dots are fluid particles, also followed in time. In the case shown here, the [[mean]] Eulerian horizontal velocity below the wave [[trough (physics)|trough]] is zero.<br>
Observe that the [[wave period]], experienced by a fluid particle near the [[free surface]], is different from the [[wave period]] at a fixed horizontal position (as indicated by the light-blue circles). This is due to the [[Doppler shift]].]]
[[File:Shallow water wave after three wave periods.gif|thumb|350px|right|Stokes drift in shallow [[water waves]], with a [[wave length]] much longer than the water depth.
Click [[:Image:Shallow water wave.gif|here]] for an animation (1.29 MB).<br>
''Description (also of the animation)'':<br>
The red circles are the present positions of massless particles, moving with the [[flow velocity]]. The light-blue line gives the [[path (topology)|path]] of these particles, and the light-blue circles the particle position after each [[wave period]]. The white dots are fluid particles, also followed in time. In the case shown here, the [[mean]] Eulerian horizontal velocity below the wave [[trough (physics)|trough]] is zero.<br>
Observe that the [[wave period]], experienced by a fluid particle near the [[free surface]], is different from the [[wave period]] at a fixed horizontal position (as indicated by the light-blue circles). This is due to the [[Doppler shift]].]]


For a pure [[wave]] [[motion (physics)|motion]] in [[fluid dynamics]], the '''Stokes drift velocity''' is the [[average]] [[velocity]] when following a specific [[fluid]] parcel as it travels with the [[fluid flow]]. For instance, a particle floating at the [[free surface]] of [[water waves]], experiences a net Stokes drift velocity in the direction of [[wave propagation]].


More generally, the Stokes drift velocity is the difference between the [[average]] [[Lagrangian and Eulerian coordinates|Lagrangian]] [[flow velocity]] of a fluid parcel, and the average [[Lagrangian and Eulerian coordinates|Eulerian]] [[flow velocity]] of the [[fluid]] at a fixed position. This [[nonlinear]] phenomenon is named after [[George Gabriel Stokes]], who derived expressions for this drift in [[#Stokes1847|his 1847 study]] of [[water waves]].
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The '''Stokes drift''' is the difference in end positions, after a predefined amount of time (usually one [[wave period]]), as derived from a description in the [[Lagrangian and Eulerian coordinates]]. The end position in the [[Lagrangian and Eulerian coordinates|Lagrangian description]] is obtained by following a specific fluid parcel during the time interval. The corresponding end position in the [[Lagrangian and Eulerian coordinates|Eulerian description]] is obtained by integrating the [[flow velocity]] at a fixed position—equal to the initial position in the Lagrangian description—during the same time interval.
<br>
The Stokes drift velocity equals the Stokes drift divided by the considered time interval.
Often, the Stokes drift velocity is loosely referred to as Stokes drift.
Stokes drift may occur in all instances of oscillatory flow which are [[inhomogeneous]] in space. For instance in [[water waves]], [[tide]]s and [[atmospheric waves]].
 
In the [[Lagrangian and Eulerian coordinates|Lagrangian description]], fluid parcels may drift far from their initial positions. As a result, the unambiguous definition of an [[average]] Lagrangian velocity and Stokes drift velocity, which can be attributed to a certain fixed position, is by no means a trivial task. However, such an unambiguous description is provided by the ''[[Generalized Lagrangian Mean]]'' (GLM) theory of [[#Andrews-McIntyre1978|Andrews and McIntyre in 1978]].<ref>See [[#Craik1985|Craik (1985)]], page 105–113.</ref>
 
The Stokes drift is important for the [[mass transfer]] of all kind of materials and organisms by oscillatory flows. Further the Stokes drift is important for the generation of [[Langmuir circulation]]s.<ref>See ''e.g.'' [[#Craik1985|Craik (1985)]], page 120.</ref>
For [[nonlinear]] and [[periodic function|periodic]] water waves, accurate results on the Stokes drift have been computed and tabulated.<ref>Solutions of the particle trajectories in fully nonlinear periodic waves and the Lagrangian wave period they experience can for instance be found in:<br>{{cite journal| author=J.M. Williams| title=Limiting gravity waves in water of finite depth | journal=Philosophical Transactions of the Royal Society A | volume=302 | issue=1466 | pages=139–188 | year=1981| doi=10.1098/rsta.1981.0159 |bibcode = 1981RSPTA.302..139W }}<br>{{cite book| title=Tables of progressive gravity waves | author=J.M. Williams | year=1985 | publisher=Pitman | isbn=978-0-273-08733-5 }}</ref>
 
==Mathematical description==
 
The [[Lagrangian and Eulerian coordinates|Lagrangian motion]] of a fluid parcel with [[position vector]] ''x = '''ξ'''('''α''',t)'' in the Eulerian coordinates is given by:<ref name=Phil1977p43>See [[#Phillips1977|Phillips (1977)]], page 43.</ref>
:<math>
  \dot{\boldsymbol{\xi}}\, =\, \frac{\partial \boldsymbol{\xi}}{\partial t}\, =\, \boldsymbol{u}(\boldsymbol{\xi},t),
</math>
where ''&part;'''ξ''' / &part;t'' is the [[partial derivative]] of '''''ξ'''('''α''',t)'' with respect to ''t'', and
:'''''ξ'''('''α''',t)'' is the Lagrangian [[position vector]] of a fluid parcel, in meters,
:'''''u'''('''x''',t)'' is the Eulerian [[velocity]], in meters per [[second]],
:'''''x''''' is the [[position vector]] in the [[Lagrangian and Eulerian coordinates|Eulerian coordinate system]], in meters,
:'''''α''''' is the [[position vector]] in the [[Lagrangian and Eulerian coordinates|Lagrangian coordinate system]], in meters,
:''t'' is the [[time]], in [[second]]s.
Often, the Lagrangian coordinates '''''α''''' are chosen to coincide with the Eulerian coordinates '''''x''''' at the initial time ''t = t<sub>0</sub>'' :<ref name=Phil1977p43/>
:<math>
  \boldsymbol{\xi}(\boldsymbol{\alpha},t_0)\, =\, \boldsymbol{\alpha}.
</math>
But also other ways of [[label]]ing the fluid parcels are possible.
 
If the [[average]] value of a quantity is denoted by an overbar, then the average Eulerian velocity vector '''''ū'''<sub>E</sub>'' and average Lagrangian velocity vector '''''ū'''<sub>L</sub>'' are:
:<math>
  \begin{align}
    \overline{\boldsymbol{u}}_E\, &=\, \overline{\boldsymbol{u}(\boldsymbol{x},t)},
    \\
    \overline{\boldsymbol{u}}_L\, &=\, \overline{\dot{\boldsymbol{\xi}}(\boldsymbol{\alpha},t)}\,
                        =\, \overline{\left(\frac{\partial \boldsymbol{\xi}(\boldsymbol{\alpha},t)}{\partial t}\right)}\,
                        =\, \overline{\boldsymbol{u}(\boldsymbol{\xi}(\boldsymbol{\alpha},t),t)}.
  \end{align}
</math>
Different definitions of the [[average]] may be used, depending on the subject of study, see [[Ergodic theory#Ergodic theorems|ergodic theory]]:
*[[time]] average,
*[[space]] average,
*[[ensemble average]] and
*[[phase (waves)|phase]] average.
Now, the Stokes drift velocity '''''ū'''<sub>S</sub>'' equals<ref>See ''e.g.'' [[#Craik1985|Craik (1985)]], page 84.</ref>
:<math>
  \overline{\boldsymbol{u}}_S\, =\, \overline{\boldsymbol{u}}_L\, -\, \overline{\boldsymbol{u}}_E.
</math>
In many situations, the [[map (mathematics)|mapping]] of average quantities from some Eulerian position '''''x''''' to a corresponding Lagrangian position '''''α''''' forms a problem. Since a fluid parcel with label '''''α''''' traverses along a [[path (topology)|path]] of many different Eulerian positions '''''x''''', it is not possible to assign '''''α''''' to a unique '''''x'''''.  
A mathematically sound basis for an unambiguous mapping between average Lagrangian and Eulerian quantities is provided by the theory of the ''Generalized Lagrangian Mean'' (GLM) by [[#Andrews-McIntyre1978|Andrews and McIntyre (1978)]].
 
==Example: A one-dimensional compressible flow==
 
For the Eulerian velocity as a monochromatic wave of any nature in a continuous medium: <math>u=\hat{u}\sin\left( kx - \omega t \right),</math> one readily obtains by the perturbation theory – with <math>k\hat{u}/\omega</math>  as a small parameter – for the particle position <math>x=\xi(\xi_0,t):</math>
:<math>\dot{{\xi}}=\, {u}({\xi},t)= \hat{u} \sin\, \left( k \xi - \omega t \right),</math>
:<math>
  \xi(\xi_0,t)\approx\xi_0+(\hat{u}/\omega)\cos(k\xi_0-\omega t)+(\tfrac12 k\hat{u}^2/\omega^2)\sin2(k\xi_0-\omega t)+k\hat{u}^2t/2\omega\ .
</math>
Here the last term describes the Stokes drift <math>\tfrac12 k\hat{u}^2/\omega.</math><ref>[[#Falkovich|Falkovich (2011)]]</ref>
 
==Example: Deep water waves==
[[File:Vitesses derive.png|right|400 px|thumb|Stokes drift under periodic waves in deep water, for a [[period (physics)|period]] ''T''&nbsp;=&nbsp;5&nbsp;s and a mean water depth of 25&nbsp;m. ''Left'': instantaneous horizontal [[flow velocity|flow velocities]]. ''Right'': [[Average]] flow velocities. Black solid line: average Eulerian velocity; red dashed line: average Lagrangian velocity, as derived from the ''Generalized Lagrangian Mean'' (GLM).]]
 
{{See also|Airy wave theory|Stokes wave}}
The Stokes drift was formulated for [[water waves]] by [[George Gabriel Stokes]] in 1847. For simplicity, the case of [[Infinity|infinite]]-deep water is considered, with [[linear]] [[wave propagation]] of a [[sinusoidal]] wave on the [[free surface]] of a fluid layer:<ref name=Phil1977p37>See ''e.g.'' [[#Phillips1977|Phillips (1977)]], page 37.</ref>
:<math>
  \eta\, =\, a\, \cos\, \left( k x - \omega t \right),
</math>
where
:''η'' is the [[elevation]] of the [[free surface]] in the ''z''-direction (meters),
:''a'' is the wave [[amplitude]] (meters),
:''k'' is the [[wave number]]: ''k = 2π / λ'' ([[radian]]s per meter),
:''ω'' is the [[angular frequency]]: ''ω = 2π / T'' ([[radian]]s per [[second]]),
:''x'' is the horizontal [[coordinate]] and the wave propagation direction (meters),
:''z'' is the vertical [[coordinate]], with the positive ''z'' direction pointing out of the fluid layer (meters),
:''λ'' is the [[wave length]] (meters), and
:''T'' is the [[wave period]] ([[second]]s).
 
As derived below, the horizontal component ''ū<sub>S</sub>''(''z'') of the Stokes drift velocity for deep-water waves is approximately:<ref name=Phil1977p44>See [[#Phillips1977|Phillips (1977)]], page 44. Or [[#Craik1985|Craik (1985)]], page 110.</ref>
 
:{{Equation box 1|equation=<math>
  \overline{u}_S\, \approx\, \omega\, k\, a^2\, \text{e}^{2 k z}\,
                  =\, \frac{4\pi^2\, a^2}{\lambda\, T}\, \text{e}^{4\pi\, z / \lambda}.
</math>}}
As can be seen, the Stokes drift velocity ''ū<sub>S</sub>'' is a [[nonlinear]] quantity in terms of the wave [[amplitude]] ''a''. Further, the Stokes drift velocity decays exponentially with depth: at a depth of a quart wavelength, ''z = -¼ λ'', it is about 4% of its value at the mean [[free surface]], ''z = 0''.
 
===Derivation===
It is assumed that the waves are of [[infinitesimal]] [[amplitude]] and the [[free surface]] oscillates around the [[mean]] level ''z = 0''. The waves propagate under the action of gravity, with a [[wikt:constant|constant]] [[acceleration]] [[Vector (geometric)|vector]] by [[gravity]] (pointing downward in the negative ''z''-direction). Further the fluid is assumed to be [[inviscid]]<ref>Viscosity has a pronounced effect on the mean Eulerian velocity and mean Lagrangian (or mass transport) velocity, but much less on their difference: the Stokes drift outside the [[Stokes boundary layer|boundary layers]] near bed and free surface, see for instance [[#Longuet-Higgins1953|Longuet-Higgins (1953)]]. Or [[#Phillips1977|Phillips (1977)]], pages 53–58.</ref> and [[incompressible]], with a [[wikt:constant|constant]] [[mass density]]. The fluid [[flow (mathematics)|flow]] is [[irrotational]]. At infinite depth, the fluid is taken to be at [[rest (physics)|rest]].
 
Now the [[flow (mathematics)|flow]] may be represented by a [[velocity potential]] ''φ'', satisfying the [[Laplace equation]] and<ref name=Phil1977p37/>
:<math>
  \varphi\, =\, \frac{\omega}{k}\, a\; \text{e}^{k z}\, \sin\, \left( k x - \omega t \right).
</math>
In order to have [[non-trivial]] solutions for this [[eigenvalue]] problem, the [[wave length]] and [[wave period]] may not be chosen arbitrarily, but  must satisfy the deep-water [[dispersion (water waves)|dispersion]] relation:<ref name=Phil1977p38>See ''e.g.'' [[#Phillips1977|Phillips (1977)]], page 38.</ref>
:<math>
  \omega^2\, =\, g\, k.
</math>
with ''g'' the [[acceleration]] by [[gravity]] in (''m / s<sup>2</sup>''). Within the framework of [[linear]] theory, the horizontal and vertical components, ''ξ<sub>x</sub>'' and ''ξ<sub>z</sub>'' respectively, of the Lagrangian position '''''ξ''''' are:<ref name=Phil1977p44/>
:<math>
  \begin{align}
    \xi_x\, &=\, x\, +\, \int\, \frac{\partial \varphi}{\partial x}\; \text{d}t\,
            =\, x\, -\, a\, \text{e}^{k z}\, \sin\, \left( k x - \omega t \right),
    \\
    \xi_z\, &=\, z\, +\, \int\, \frac{\partial \varphi}{\partial z}\; \text{d}t\,
            =\, z\, +\, a\, \text{e}^{k z}\, \cos\, \left( k x - \omega t \right).
  \end{align}
</math>
The horizontal component ''ū<sub>S</sub>'' of the Stokes drift velocity is estimated by using a [[Taylor expansion]] around '''''x''''' of the Eulerian horizontal-velocity component ''u<sub>x</sub> = &part;ξ<sub>x</sub> / &part;t'' at the position '''''ξ''''' :<ref name=Phil1977p43/>
:<math>
  \begin{align}
    \overline{u}_S\,  
          &=\, \overline{u_x(\boldsymbol{\xi},t)}\, -\, \overline{u_x(\boldsymbol{x},t)}\,
         
    \\
          &=\, \overline{\left[
                          u_x(\boldsymbol{x},t)\,
                          +\, \left( \xi_x - x \right)\, \frac{\partial u_x(\boldsymbol{x},t)}{\partial x}\,
                          +\, \left( \xi_z - z \right)\, \frac{\partial u_x(\boldsymbol{x},t)}{\partial z}\,
                          +\, \cdots
                        \right] }
          -\, \overline{u_x(\boldsymbol{x},t)}
    \\
          &\approx\, \overline{\left( \xi_x - x \right)\, \frac{\partial^2 \xi_x}{\partial x\, \partial t} }\,
                +\, \overline{\left( \xi_z - z \right)\, \frac{\partial^2 \xi_x}{\partial z\, \partial t} }
    \\
          &=\, \overline{ \bigg[ -            a\, \text{e}^{k z}\, \sin\, \left( k x - \omega t \right) \bigg]\,
                          \bigg[ -\omega\, k\, a\, \text{e}^{k z}\, \sin\, \left( k x - \omega t \right) \bigg] }\,
    \\
          &+\, \overline{ \bigg[              a\, \text{e}^{k z}\, \cos\, \left( k x - \omega t \right) \bigg]\,
                          \bigg[  \omega\, k\, a\, \text{e}^{k z}\, \cos\, \left( k x - \omega t \right) \bigg] }\,
    \\
          &=\, \overline{ \omega\, k\, a^2\, \text{e}^{2 k z}\,
                          \bigg[ \sin^2\, \left( k x - \omega t \right) + \cos^2\, \left( k x - \omega t \right) \bigg] }
    \\
          &=\, \omega\, k\, a^2\, \text{e}^{2 k z}.
  \end{align}
</math>
 
==See also==
*[[Coriolis-Stokes force]]
*[[Darwin drift]]
*[[Lagrangian and Eulerian coordinates]]
*[[Material derivative]]
 
==References==
 
===Historical===
*{{cite journal | author= A.D.D. Craik | year= 2005 | title= George Gabriel Stokes on water wave theory | journal= Annual Review of Fluid Mechanics | volume= 37 | pages= 23–42 | doi= 10.1146/annurev.fluid.37.061903.175836 | url= http://arjournals.annualreviews.org/doi/abs/10.1146/annurev.fluid.37.061903.175836?journalCode=fluid |bibcode = 2005AnRFM..37...23C }}
*<cite id=Stokes1847>{{cite journal | author= G.G. Stokes | year= 1847 | title= On the theory of oscillatory waves | journal= Transactions of the Cambridge Philosophical Society | volume= 8 | pages= 441–455 }}<br>Reprinted in: {{cite book | author= G.G. Stokes | year= 1880 | title= Mathematical and Physical Papers, Volume I | publisher= Cambridge University Press | pages= 197–229 | url= http://www.archive.org/details/mathphyspapers01stokrich }}</cite>
 
===Other===
*<cite id=Andrews-McIntyre1978>{{cite journal | author=D.G. Andrews and M.E. McIntyre | year= 1978 | title= An exact theory of nonlinear waves on a Lagrangian mean flow | journal= Journal of Fluid Mechanics | volume= 89 | pages= 609–646 | url= http://journals.cambridge.org/action/displayAbstract?fromPage=online&aid=388265 | doi= 10.1017/S0022112078002773 |bibcode = 1978JFM....89..609A | issue=4 }}</cite>
*<cite id=Craik1985>{{cite book | author= A.D.D. Craik | title=Wave interactions and fluid flows | year=1985 | publisher=Cambridge University Press | isbn=0-521-36829-4}}</cite>
*<cite id=Longuet-Higgins1953>{{cite journal | author= M.S. Longuet-Higgins | authorlink=Michael S. Longuet-Higgins | year= 1953 | title= Mass transport in water waves | journal= Philosophical Transactions of the Royal Society A | volume= 245 | pages= 535–581 | url= http://rsta.royalsocietypublishing.org/content/245/903/535 | doi= 10.1098/rsta.1953.0006 |bibcode = 1953RSPTA.245..535L | issue=903}}</cite>
*<cite id=Phillips1977>{{cite book| first=O.M. | last=Phillips | title=The dynamics of the upper ocean |publisher=Cambridge University Press | year=1977 | edition=2nd | isbn=0-521-29801-6 }}</cite>
*<cite id=Falkovich>{{cite book | author=G. Falkovich| year=2011 | title=Fluid Mechanics (A short course for physicists)|url=http://www.cambridge.org/gb/knowledge/isbn/item6173728/?site_locale=en_GB | publisher=Cambridge University Press | isbn=978-1-107-00575-4 }}
 
==Notes==
{{reflist|2}}
 
{{physical oceanography}}
 
[[Category:Fluid dynamics]]
[[Category:Water waves]]

Latest revision as of 19:12, 12 December 2014


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