Optical article having a conductive anti-reflection coating
First Claim
1. In an optical article, a substrate having first and second surfaces and a conductive antireflection coating disposed on the first surface, said conductive antireflection coating having at least one layer of a low index material carried by said first surface and a thin transparent conducting layer of the material having a high index of refraction carried by said layer of low index material and providing an exposed surface to which a direct electrical contact can be made, said thin transparent conducting layer having an optical thickness ranging from 1.0 to 30.0 nanometers and wherein said layer of low index material has its design thickness reduced to compensate for the thickness of the thin transparent conducting layer whereby the provision of the thin conducting layer does not seriously degrade the optical performance of the coating over that which could be obtained without the use of the thin transparent conducting layer.
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Accused Products
Abstract
Optical article having a substrate with first and second surfaces and with a conductive antireflection coating disposed on the first surface. The conductive antireflection coating is comprised of at least one layer of a low index material carried by said first surface and a thin transparent conducting layer of a material having a high index of refraction carried by the layer of material having a low index of refraction. The conducting layer provides an exposed surface to which the direct electrical contact can be made. The conducting layer has an optical thickness ranging from 1.0 to 30.0 nanometers. The layer of material having a low index of refraction has its design thickness reduced to compensate for the thickness of the conducting layer whereby the conducting layer does not seriously degrade the optical performance of the coating over that which could be obtained without the use of the conducting layer.
56 Citations
9 Claims
- 1. In an optical article, a substrate having first and second surfaces and a conductive antireflection coating disposed on the first surface, said conductive antireflection coating having at least one layer of a low index material carried by said first surface and a thin transparent conducting layer of the material having a high index of refraction carried by said layer of low index material and providing an exposed surface to which a direct electrical contact can be made, said thin transparent conducting layer having an optical thickness ranging from 1.0 to 30.0 nanometers and wherein said layer of low index material has its design thickness reduced to compensate for the thickness of the thin transparent conducting layer whereby the provision of the thin conducting layer does not seriously degrade the optical performance of the coating over that which could be obtained without the use of the thin transparent conducting layer.
Specification