Examples of 'birefringent' in a sentence
Meaning of "birefringent"
Birefringent is an adjective used in optics to describe a material that can split a light ray into two rays with different polarizations
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- Of or pertaining to birefringence
- Having two refractive indices (depending on orientation)
How to use "birefringent" in a sentence
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birefringent
These are typically made of a birefringent crystalline material.
These optically anisotropic materials are said to be birefringent.
Such materials are said to be birefringent or doubly refracting.
The birefringent fiber may be an assymmettrical core fiber.
The compound crystallizes as tetragonal birefringent crystals.
It may be birefringent on stirring and highly opalescent.
The optic fiber is preferably a birefringent fiber.
Birefringent crystal for frequency doubling.
The microcrystals are birefringent and dichroic.
Birefringent lenses have been known for some time.
Other embodiments comprising birefringent mediums are also envisaged.
A birefringent material is anisotropic or directionally dependent.
Fluid shows negatively birefringent crystals.
The birefringent crystal alters the character of the polarization.
These optically anisotropic materials are said to be birefringent or birefractive.
See also
It is known to use a birefringent fibre of great length as a retarder.
Materials with two indices of refraction are called birefringent.
These are usually created from a birefringent crystalline material.
Birefringent materials can have two different indices of refraction.
Obtaining an image of uniaxial birefringent crystal.
The birefringent element can be positioned in the separation medium.
Display panel with compensation by holographic birefringent films.
The use of a birefringent fibre of great length as a retarder is known.
Waveplates are typically comprised of a birefringent crystal.
Supertwisted birefringent effect displays operate in a broadly similar manner.
Babefphite is also weakly birefringent.
Talc crystals are birefringent and can be identified under polarized light.
A polarizing microscope allows to image and characterize birefringent samples.
The output birefringent wedge then recombines the two components.
The following table shows the birefringent behavior of some.
Biaxially birefringent materials are important to the film of the present invention.
It contains small birefringent crystals.
Displacement of light rays with perpendicular polarization through a birefringent material.
Only by using anisotropic birefringent materials is it possible to obtain this condition.
Many naturally occurring crystalline compounds act as birefringent polarizers.
The propagation of a wave in a birefringent medium affects its state of polarization.
Light is incident from isotropic medium to the birefringent layers.
White solid containing birefringent spherulites of needles and blades resulted.
Examination of the fluid showed sheets of negatively birefringent crystals.
Other birefringent materials can be used in place of quartz in the above designs.
Refractive indices of birefringent materials.
The guides that form this laser can be monorefringent or birefringent.
The receiver is again formed on a substrate of birefringent material or of semiconductor material.
A uniaxially birefringent material can have either positive or negative uniaxial birefringence.
The reflective polarizer contains at least one birefringent material.
The setup is tested on a birefringent material such as a crystal and a biological tissue.
The material of the additional layer is a positive uniaxial birefringent material.
Achromatizing birefringent lens systems in two preselected powers will now be described.
The sample exhibited areas of both birefringent and amorphous agglomerates.
A composite with these properties is possible because the liquid crystal is birefringent.
