Skin depth

Skin depth

Skin depth is a measure of the distance an alternating current can penetrate beneath the surface of a conductor.

When an electromagnetic wave interacts with a conductive material, mobile charges within the material are made to oscillate back and forth with the same frequency as the impinging fields. The movement of these charges, usually electrons, constitutes an alternating electric current, the magnitude of which is greatest at the conductor's surface. The decline in current density versus depth is known as the skin effect and the skin depth is a measure of the distance over which the current falls to 1/e of its original value. A gradual change in phase accompanies the change in magnitude, so that, at a given time and at appropriate depths, the current can be flowing in the opposite direction to that at the surface.

The skin depth is a property of the material that varies with the frequency of the applied wave. It can be calculated from the relative permittivity and conductivity of the material and frequency of the wave. (See the article Mathematical descriptions of opacity for relationships with other optical and electrical parameters.) First, find the material's complex permittivity, varepsilon_c

:varepsilon_c=varepsilon}left(1 - jsigma}over{omega varepsilon ight)} qquad qquad(1)

where::varepsilon = permittivity of the material of propagation:omega = angular frequency of the wave:sigma = electrical conductivity of the material of propagation:j = the imaginary unit

Thus, the propagation constant, k, will also be a complex number, and can be separated into real and imaginary parts.

: k_c = {omega}sqrt{muvarepsilon_c} = alpha + jeta = omega sqrt {mu varepsilon left( {1 - fracjsigma omega varepsilon } ight)} qquadqquad(2)

The constants can also be expressed ascite book | last = Griffiths | first = David| authorlink=David Griffiths (physicist)|editor =Alison Reeves (ed.)| title = Introduction to Electrodynamics| origyear = 1981 | accessdate = 20068-01-29 | edition = 3rd edition | year = 1999 | publisher = Prentice Hall | location = Upper Saddle River, New Jersey | isbn = 0-13-805326-x | oclc = 40251748 | doi = | id = | pages = 394 | chapter = 9. Electromagnetic Waves]

: alpha = {omega}sqrt{muvarepsilon}over2}left(sqrt{1 + left(sigma}over{omega epsilon ight)^2} + 1 ight)}qquadqquad (3)

: eta = {omega}sqrt{muvarepsilon}over2}left(sqrt{1 + left(sigma}over{omega epsilon ight)^2} - 1 ight)}qquadqquad (4)

where::mu = permeability of the material:eta = attenuation constant of the propagating wave

For a uniform wave propagating in the +z-direction,

: E_x = E_0 e^{jk_cz} = E_0 e^{jalpha z} e^{-eta z}qquadqquad (5)

then alpha gives a wave solution, and eta gives an exponential decay as z increases and is for this reason an attenuation term where eta is an attenuation constant with the unit Np/m (Neper). If eta = 1 then a unit wave amplitude decreases to a magnitude of e^{-1} Np/m.

It can be seen that the imaginary part of the complex permittivity increases with frequency, implying that the attenuation constant also increases with frequency. Therefore, a high frequency wave will only flow through a very small region of the conductor (much smaller than in the case of a lower frequency current), and will therefore encounter more electrical resistance (due to the decreased surface area).

A good conductor is per definition if 1llsigma / varepsilon omega why we can neglect 1 in equation (2) and it turns to

:k_c = sqrt j , sqrt {mu omega sigma } = frac1 + jsqrt 2 sqrt {mu 2pi fsigma } = (1 + j)sqrt {pi fmu sigma }qquadqquad(6) where::f = frequency of the wave

The skin depth is defined as the distance delta through which the amplitude of a traveling plane wave decreases by a factor e^{-1} and is therefore

:delta = frac{1}{eta} qquadqquad(7)

and for a good conductor is it defined as

:delta = frac{1}{sqrt {pi fmu sigma qquadqquad(8)

The term "skin depth" traditionally assumes ω real. This is not necessarily the case; the imaginary part of ω characterizes' the waves attenuation in time. This would make the above definitions for α and β complex.

The same equations also apply to a lossy dielectric. Defining

:varepsilon_c={left({varepsilon'} - j{varepsilon"} ight)}

replace varepsilon with varepsilon' , and {sigmaover{omegavarepsilon with varepsilon"over{varepsilon'}

Examples

The electrical resistivity of a material is equal to 1/σ and its relative permeability is defined as mu/mu_0, where mu_0 is the magnetic permeability of free space. It follows that Equation (8) can be rewritten as

:delta = frac{1}{sqrt{pi mu_o ,sqrt{frac{ ho}{mu_r f approx 503,sqrt{frac{ ho}{mu_r fqquadqquad(9)

where

:mu_0 = "4π"×10"-7" H/m:mu_r = the relative permeability of the medium: ho = the resistivity of the medium in Ωm:f = the frequency of the wave in Hz

If the resistivity of aluminium is taken as 2.8×10"-8" Ωm and its relative permeability is 1, then the skin depth at a frequency of 50 Hz is given by

:delta = 503 ,sqrt{frac{2.82 cdot 10^{-8{1 cdot 50= 11.9 mm

Iron has a higher resistivity, 1.0×10"-7" Ωm, and this will increase the skin depth. However, its relative permeability is typically 90, which will have the opposite effect. At 50 Hz the skin depth in iron is given by

:delta = 503 ,sqrt{frac{1.0 cdot 10^{-7{90 cdot 50= 2.4 mm

Hence, the higher magnetic permeability of iron more than compensates for the lower resistivity of aluminium and the skin depth in iron is therefore 5 times smaller. This will be true whatever the frequency, assuming the material properties are not themselves frequency-dependent.

Skin depth values for some common good conductors at a frequency of 10GHz (microwave region) are indicated below.

As one can see, in microwave frequencies most of the current in a good conductor flows in an extremely thin region near the surface of the latter. A 10GHz microwave frequency is approximately four times higher than the frequency of most modern devices such as Bluetooth, wireless, microwave ovens, and satellite television which all operate in or around the 2.4GHz band, and therefore have about two times as much penetration as those figures for 10GHz.

ee also

*skin effect

References

*cite book
last=Ramo, Whinnery, Van Duzer
year=1994
title=Fields and Waves in Communications Electronics
publisher=John Wiley and Sons


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