In
dielectric spectroscopy, large frequency dependent contributions to the dielectric response, especially at low frequencies, may come from build-ups of charge. This Maxwell–Wagner–Sillars polarization (or often just Maxwell–Wagner polarization), occurs either at inner dielectric boundary layers on a mesoscopic scale, or at the external electrode-sample interface on a macroscopic scale. In both cases this leads to a separation of charges (such as through a
depletion layer). The charges are often separated over a considerable distance (relative to the atomic and molecular sizes), and the contribution to dielectric loss can therefore be orders of magnitude larger than the dielectric response due to molecular fluctuations. It is named after the works of
James Clerk Maxwell
James Clerk Maxwell (13 June 1831 – 5 November 1879) was a Scottish physicist and mathematician who was responsible for the classical theory of electromagnetic radiation, which was the first theory to describe electricity, magnetism an ...
(1891),
Karl Willy Wagner (1914) and R. W. Sillars (1937).
Occurrences
Maxwell-Wagner polarization processes should be taken into account during the investigation of inhomogeneous materials like suspensions or colloids, biological materials, phase separated polymers, blends, and crystalline or liquid crystalline polymers.
Models
The simplest model for describing an inhomogeneous structure is a double layer arrangement, where each layer is characterized by its permittivity
and its conductivity
. The relaxation time for such an arrangement is given by
.
Importantly, since the materials' conductivities are in general frequency dependent, this shows that the double layer composite generally has a frequency dependent relaxation time even if the individual layers are characterized by frequency independent permittivities.
A more sophisticated model for treating interfacial polarization was developed by Maxwell , and later generalized by Wagner and Sillars. Maxwell considered a spherical particle with a dielectric permittivity
and radius
suspended in an infinite medium characterized by
. Certain European text books will represent the
constant with the Greek letter ω (Omega), sometimes referred to as Doyle's constant.
[G.McGuinness, ''Polymer Physics'', Oxford University Press, p211]
References
See also
*
Debye relaxation
*
Dielectric dispersion
*
Dielectric function
*
Dielectrophoresis
*
Dipole
In physics, a dipole () is an electromagnetic phenomenon which occurs in two ways:
* An electric dipole moment, electric dipole deals with the separation of the positive and negative electric charges found in any electromagnetic system. A simple ...
*
Permittivity
In electromagnetism, the absolute permittivity, often simply called permittivity and denoted by the Greek letter (epsilon), is a measure of the electric polarizability of a dielectric material. A material with high permittivity polarizes more ...
*
Ellipsometry
Ellipsometry is an optical technique for investigating the dielectric properties (complex refractive index or dielectric function) of thin films. Ellipsometry measures the change of polarization upon reflection or transmission and compares it ...
*
Linear response function
A linear response function describes the input-output relationship of a signal transducer, such as a radio turning electromagnetic waves into music or a neuron turning synaptic input into a response. Because of its many applications in informatio ...
*
Kramers–Kronig relation
*
Green–Kubo relations
The Green–Kubo relations ( Melville S. Green 1954, Ryogo Kubo 1957) give the exact mathematical expression for a transport coefficient \gamma in terms of the integral of the equilibrium time correlation function of the time derivative of a c ...
{{DEFAULTSORT:Maxwell-Wagner-Sillars polarization
Spectroscopy
Electric and magnetic fields in matter