Tunable liquid crystal optical device
Abstract
A variable liquid crystal optical device for controlling the propagation of light has one or more transparent thin-film highly-resistive layer (HRL) coupled to a substrate and an electrode structure. The HRL has core layer and a cover or proximity layer, wherein the core layer material has a higher electrical conductivity and higher refractive index than the cover layer material; and wherein the core and cover layer materials have substantially the same free energies of formation of oxide. In this way, the electrode structure will be environmentally stable and responsive to an applied electrical current to generate a spatially non-uniform magnetic field.
Claims
exact text as granted — not AI-modified1 - 9 . (canceled)
10 . A method of manufacturing a gradient-index liquid crystal optical device, the method comprising:
providing transparent substrates; depositing on a first one of said substrates:
at least one electrode structured to create a spatially non-uniform electric field between the substrates; and
a plurality of layers forming a highly resistive layer having a core weakly conductive material with an index of refraction higher than an index of refraction of the substrates and encapsulated by layers of a proximity material having insulating properties and an index of refraction between the index of refraction of the weakly conductive material and the index of refraction of the substrates, the proximity material having substantially a same free energy of formation of oxide as the weakly conductive material,
wherein said plurality of layers are deposited first onto said first one of said substrates, or at least one of said at least one electrode is deposited first onto said first one of said substrate;
depositing at least one electrode on a second one of said substrates; providing an alignment layer covering said substrates for orienting the liquid crystal material; providing at least one cell wall on said substrates; depositing a liquid crystal material on one of said substrates in said cell wall; covering said one of said substrates with another of said substrates to enclose said liquid crystal material within said cell wall; and bonding said substrates together.
11 . The method of manufacturing a gradient-index liquid crystal optical device as defined in claim 10 , wherein said transparent substrates are prepared for an array of devices to be manufactured by wafer-scale fabrication, wherein an array of said cell walls are provided on said substrates, said depositing of said liquid crystal material is performed for each one of said bottom barriers, and further comprising singulating individual devices from a resulting wafer comprising said substrates.
12 . The method of manufacturing a gradient-index liquid crystal optical device as claimed in claim 10 , wherein said devices each comprise two liquid crystal cells, wherein a first one of said cells has liquid crystal oriented in a first linear direction, and a second one of said cells has liquid crystal oriented in a second linear direction orthogonal to said first linear direction, said device acting on both linear polarizations of light.
13 . The method of manufacturing a gradient-index liquid crystal optical device as claimed in claim 10 , wherein said core weakly conductive material and said proximity material comprise metal-oxide material compounds.
14 . The method of manufacturing a gradient-index liquid crystal optical device as claimed in claim 10 , wherein said core weakly conductive material comprises titanium oxide and said proximity material comprises Ta 2 O 5 and preferably also Al 2 O 3 .Join the waitlist — get patent alerts
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