Polarized light microscopy can mean any of a number of
optical microscopy
Optics is the branch of physics that studies the behaviour and properties of light, including its interactions with matter and the construction of instruments that use or detect it. Optics usually describes the behaviour of visible, ultraviole ...
techniques involving
polarized light
Polarization (also polarisation) is a property applying to transverse waves that specifies the geometrical orientation of the oscillations. In a transverse wave, the direction of the oscillation is perpendicular to the direction of motion of the ...
. Simple techniques include illumination of the sample with polarized light. Directly transmitted light can, optionally, be blocked with a polariser orientated at 90 degrees to the illumination. More complex microscopy techniques which take advantage of polarized light include
differential interference contrast microscopy
Differential interference contrast (DIC) microscopy, also known as Nomarski interference contrast (NIC) or Nomarski microscopy, is an optical microscopy technique used to enhance the contrast in unstained, transparent samples. DIC works on the p ...
and
interference reflection microscopy
Interference reflection microscopy (IRM), also called Reflection Interference Contrast Microscopy (RICM) or Reflection Contrast Microscopy (RCM) depending on the context, is an optical microscopy technique that leverages interference effects to for ...
. Scientists will often use a device called a polarizing plate to convert natural light into polarized light.
These illumination techniques are most commonly used on
birefringent
Birefringence is the optics, optical property of a material having a refractive index that depends on the Polarization (waves), polarization and propagation direction of light. These optically anisotropic materials are said to be birefringent (or ...
samples where the polarized light interacts strongly with the sample and so generating contrast with the background. Polarized light microscopy is used extensively in
optical mineralogy
Optical mineralogy is the study of minerals and rocks by measuring their optical properties. Most commonly, rock and mineral samples are prepared as thin sections or grain mounts for study in the laboratory with a petrographic microscope. Optic ...
.
History
Although the invention of the polarizing microscope is typically attributed to
David Brewster
Sir David Brewster KH PRSE FRS FSA Scot FSSA MICE (11 December 178110 February 1868) was a British scientist, inventor, author, and academic administrator. In science he is principally remembered for his experimental work in physical optics ...
around 1815, Brewster clearly acknowledges the priority of
Henry Fox Talbot
William Henry Fox Talbot FRS FRSE FRAS (; 11 February 180017 September 1877) was an English scientist, inventor, and photography pioneer who invented the salted paper and calotype processes, precursors to photographic processes of the later ...
, who published his work in 1834.
The Michel-Levy chart
As polarised light passes through a birefringent sample, the phase difference between the fast and slow directions varies with the thickness, and wavelength of light used. The optical path difference (o.p.d.) is defined as
, where t is the thickness of the sample.
This then leads to a phase difference between the light passing in the two vibration directions of
.
For example, if the optical path difference is
, then the phase difference will be
, and so the polarisation will be perpendicular to the original, resulting in all of the light passing through the analyser for crossed polars. If the optical path difference is
, then the phase difference will be
, and so the polarisation will be parallel to the original. This means that no light will be able to pass through the analyser which it is now perpendicular to.
The Michel-Levy Chart (named after
Auguste Michel-Lévy
Auguste Michel-Lévy (7 August 184427 September 1911) was a French geologist. He was born in Paris.
Biography
He became inspector-general of mines, and director of the Geological Survey of France. He was distinguished for his researches on extru ...
) arises when polarised white light is passed through a birefringent sample. If the sample is of uniform thickness, then only one specific wavelength will meet the condition described above, and be perpendicular to the direction of the analyser. This means that instead of polychromatic light being viewed at the analyser, one specific wavelength will have been removed. This information can be used in a number of ways:
*If the birefringence is known, then the thickness, t, of the sample can be determined
*If the thickness is known, then the birefringence of the sample can be determined
As the order of the optical path difference increases, then it is more likely that more wavelengths of light will be removed from the spectrum. This results in the appearance of the colour being "washed out", and it becomes more difficult to determine the properties of the sample. This, however, only occurs when the sample is relatively thick when compared to the wavelength of light.
tissue paper
Tissue paper or simply tissue is a lightweight paper or, light crêpe paper. Tissue can be made from recycled pulp (paper), paper pulp on a paper machine.
Tissue paper is very versatile, and different kinds of tissue are made to best serve these ...
s. 1.559 μm/pixel." align="center">
Image:Paper_Micrograph_Cross-Polarised.png, Cross-polarized light illumination, sample contrast comes from rotation of