Optical coatings for high temperature applications
First Claim
1. An optical filter useful in an environment in which said optical filter is exposed to temperatures substantially in excess of 500 degrees Centigrade (such as the environment of a high temperature lamp), said optical filter comprising a substantially transparent substrate formed from a material adapted to withstand said temperatures and an optical coating formed on one surface of said substrate and consisting of a first set of thin film layers consisting primarily and essentially of silicon dioxide and a second set of thin film layers consisting primarily and essentially of tantalum pentoxide, said thin film layer of silicon dioxide and tantalum pentoxide alternating in said optical coating and forming an interference filter.
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Accused Products
Abstract
A coated article useful in high temperature environments substantially in excess of 500° C. comprising a substantially transparent substrate formed of a material adapted to withstand said high temperature environment and an optical coating formed on one surface of said substrate and comprising a first set of layers consisting at least primarily of silicon dioxide and a second set of layers consisting at least primarily of tantalum pentoxide. The optical coating comprises an interference filter formed of alternating layers of fused silica and tantalum pentoxide. A halogen cycle lamp with visible light transmitting, IR reflecting filter formed on the outside surface of the lamp envelope improves energy efficiency by at least twenty-five percent.
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Citations
12 Claims
- 1. An optical filter useful in an environment in which said optical filter is exposed to temperatures substantially in excess of 500 degrees Centigrade (such as the environment of a high temperature lamp), said optical filter comprising a substantially transparent substrate formed from a material adapted to withstand said temperatures and an optical coating formed on one surface of said substrate and consisting of a first set of thin film layers consisting primarily and essentially of silicon dioxide and a second set of thin film layers consisting primarily and essentially of tantalum pentoxide, said thin film layer of silicon dioxide and tantalum pentoxide alternating in said optical coating and forming an interference filter.
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7. A halogen cycle lamp comprising a lamp envelope having a geometry which has an internal focal point, line or plane and being formed from a substantially transparent material capable of withstanding operating temperatures of at least about 800 degrees Centigrade;
- a high melting point filament mounted within said lamp envelope substantially at said focal point, line or plane;
a halogen gas filing said envelope; and
an optical coating formed on an outer surface of said lamp envelope and consisting of a first set of thin film layers consisting primarily and essentially of silicon dioxide and a second set of thin film layers consisting primarily and essentially of tantalum pentoxide, said thin film layers of silicon dioxide and tantalum pentoxide alternating in said optical coating and forming an interference filter comprising a bandpass filter designed to transmit radiation in a preselected wavelength band and to reflect radiation in adjacent wavelength regions. - View Dependent Claims (8, 9, 10)
- a high melting point filament mounted within said lamp envelope substantially at said focal point, line or plane;
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11. An optical filter useful in an environment in which said optical filter is exposed to temperatures substantially in excess of 500 degrees Centigrade (such as the environment of a high temperature lamp), said optical filter comprising a substantially transparent substrate formed from a material adapted to withstand said temperatures and an optical coating formed on one surface of said substrate and consisting of a first set of thin film layers consisting primarily and essentially of silicon dioxide and a second set of thin film layers consisting primarily and essentially of tantalum pentoxide, said thin film layer of silicon dioxide and tantalum pentoxide alternating in said optical coating and forming an interference filter having high reflectance for infrared radiation and high transmittance for visible light;
- said coating being in the form of numerous small islands adhered to said substrate caused by an initial baking of said optical filter in air at a temperature of at least about 1100 degrees Centigrade whereby said visible light is substantially scattered as it is transmitted through said optical coating.
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12. An optical filter useful in an environment in which said optical filter is exposed to temperatures substantially in excess of 500 degrees Centigrade (such as the environment of a high temperature lamp), said optical filter comprising a substantially transparent substrate formed from fused silica adapted to withstand said temperatures and an optical coating formed on one surface of said fused silica substrate and consisting of a first set of thin film layers consisting primarily and essentially of silicon dioxide and a second set of thin film layers consisting primarily and essentially of tantatlum pentoxide, said thin film layer of silicon dioxide and tantalum pentoxide alternating in said optical coating and forming an interference filter, and said first layer of said coating formed on said fused silica substrate being a layer of silicon dioxide.
Specification