Examples of 'antireflective' in a sentence
Meaning of "antireflective"
Antireflective refers to a surface or coating that reduces reflection or glare of light
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- Preventing visible reflection.
How to use "antireflective" in a sentence
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antireflective
They are preferably treated with an antireflective coating.
Attach the antireflective ring to the digital camera.
This concept has led to creation of antireflective coatings.
The antireflective layer can be made of silicon nitride.
An additional issue arises when antireflective layers are employed.
The antireflective treatment is deposited on both faces of each lens.
The lens has antireflective coating.
An antireflective layer is then deposited on the emitter of the semiconductor substrate.
A metallic grid is then formed on the antireflective layer.
Depositing an antireflective layer on the surface passivation layer.
Method of obtaining patters in an antireflective layer.
Lens with antireflective coating.
These upper protective layers are not regarded as included in an antireflective coating.
An antireflective film can be used.
An exterior protective overcoat layer deposited on the dielectric antireflective film.
See also
The provision of an antireflective layer increases effectiveness of photon absorption.
Panels also contain metal conductor strips and antireflective coating.
The antireflective layer may for example be in silicon nitride or in titanium oxide.
The lenses may be coated with an antireflective layer to minimize optical losses.
The textured glass sheet obtained can be covered with an antireflective coating.
This is why antireflective coating will be applied for reducing such losses.
Gently insert the digital camera with the antireflective ring attached to.
In some embodiments an antireflective film is provided on the interior surface of the windshield.
All exposed surfaces of the prisms were previously coated with an antireflective coating.
The antireflective coatings are composed of dielectric layers based on silicon nitride and zinc oxide.
The optical element may be coated with an antireflective layer to minimize optical losses.
The semiconductor surface between the two electrodes may be coated with an antireflective coating.
The first layer is an antireflective layer which may comprise two sublayers of different composition.
These coatings are preferably applied onto the outer layer of the antireflective coating.
An ITO coating may be combined with an antireflective coating to further improve transmittance.
The ophthalmic system of any of the preceding claims further comprising an antireflective component.
The lenses comprising the antireflective coating Z are not submitted to any activating treatment.
Deposition of a metallic grid on the antireflective layer ;.
It has an antireflective coating, like on prescription lenses.
Such coating compositions are particularly useful as antireflective layers for an overcoated photoresist layer.
This antireflective layer 2 is preferably deposited by spin coating.
This may ensure a sufficient quantity of Zn in the antireflective layer to provide advantageous properties.
Forming an antireflective layer on an emitter of the at least one semiconductor substrate ;.
Depositing a metallic grid on the antireflective layer ;.
A dielectric, antireflective film contacting the primer film.
Light-transmissive substrates with antireflective coatings.
Formation of an antireflective layer on the emitter of the semiconductor substrate ;.
According to a preferred embodiment, the inventive substrate has antireflective properties.
Depositing a dielectric, antireflective film on the primer film.
An antireflective layer 72 was deposited on the textured face of the monolithic substrate.
This produces an optical polarizer 10 which is antireflective on at least one side.
A dielectric, antireflective film deposited on the second primer film.
Thus, a quarter wavelength separation or thickness provides a good antireflective property.
The anti-UV, antireflective coating may be deposited directly onto a bare substrate.
The substrate according to claim 1, wherein the substrate has antireflective properties.
