Thin film polarizing device
First Claim
Patent Images
1. A thin film polarizing device comprising:
- first and second light transmissive substrates; and
,a plurality of thin film layers having refractive indices that range between low and high values, disposed between the first and second light transmissive substrates, the substrates having refractive indices that are higher than the index of the lowest refractive index layer, so that incident light falls upon some of the lower refractive index layers at an angle that is greater than the critical angle, the number of the thin film layers and their thicknesses and refractive indices being chosen to allow unpolarized incident light to be separated into s-polarized and p-polarized light beams;
wherein frustrated total internal reflection and thin film interference are simultaneously employed to allow s-polarized light to be transmitted and p-polarized light to be reflected over a wide range of wavelengths and angles of incidence.
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Abstract
A thin film polarizing device has first and second light transmissive substrates in the form of prisms and a plurality of thin film layers disposed between the prisms. The thin film layers and have predetermined thicknesses and refractive indices which allow unpolarized incident light to be separated into s-polarized and p-polarized light beams. Both frustrated total internal reflection and thin film interference are simultaneously employed to allow s-polarized light to be transmitted and p-polarized light to be reflected over a wide range of wavelengths and angles of incidence. The polarizing device may be used as a polarizer or a polarizer beam splitter.
108 Citations
17 Claims
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1. A thin film polarizing device comprising:
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first and second light transmissive substrates; and
,a plurality of thin film layers having refractive indices that range between low and high values, disposed between the first and second light transmissive substrates, the substrates having refractive indices that are higher than the index of the lowest refractive index layer, so that incident light falls upon some of the lower refractive index layers at an angle that is greater than the critical angle, the number of the thin film layers and their thicknesses and refractive indices being chosen to allow unpolarized incident light to be separated into s-polarized and p-polarized light beams; wherein frustrated total internal reflection and thin film interference are simultaneously employed to allow s-polarized light to be transmitted and p-polarized light to be reflected over a wide range of wavelengths and angles of incidence. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A thin film polarizing device, for separating s-polarized light and p-polarized light by reflecting p-polarized light and transmitting s-polarized light comprising:
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first and second light transmissive substrates; and
,a plurality of thin film layers disposed between the first and second light transmissive substrates; the thin film layers comprising high refractive index layers and low refractive index layers, the high refractive index layers having one or more different refractive indices, and the low refractive index layers having one or more different refractive indices; the first and second light transmissive substrates, each in the form of a prism having a refractive index greater than the refractive index of each of the low refractive index layers; the prisms being shaped in such a manner as to allow incident light to be incident upon the thin film layers at a plurality of angles greater than or equal to the critical angle for the highest refractive index of the low refractive index layers; the thickness of the low refractive index layers of the plurality of thin film layers being small enough so that light incident upon the thin film layers at an angle greater than the critical angle can be partially coupled out through the low refractive index layers such that frustrated total internal reflection occurs, thus permitting interference to take place between light reflected at the interfaces of all the thin film layers; and in addition, the thicknesses of the thin film layers being such that an equivalent optical admittance of the plurality of the thin film layers for s-polarized light is substantially the same as an optical admittance of the substrate for s-polarized light for a wide range of angles of incidence and a broad band of wavelengths when the incident light is incident upon the low refractive index layers at an angle greater that the critical angle, thereby allowing substantially all incident s-polarized light to be substantially transmitted; the plurality of the thin film layers having an equivalent optical admittance for p-polarized light that is substantially different from the optical admittance of the substrate for p-polarized light for a wide-range of angles of incidence and a broad-band of wavelengths and thus substantially reflecting incident p-polarized light. - View Dependent Claims (11, 12, 13, 14, 15, 16)
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17. A polarizing device for separating s-polarized light and p-polarized light through either reflecting p-polarized light or transmitting s-polarized light comprising:
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a first and a second substrates at least the first being light transmissive; and, a plurality of thin film layers disposed between the first and second substrates; the thin film layers comprising high refractive index layers and low refractive index layers, high refractive index layers having one or more different refractive indices, and the low refractive index layers having one or more different refractive indices; the first and second substrates, each in the form of a prism having a refractive index greater than the refractive index of each of the low refractive index layers; the prisms being shaped in such a manner as to allow incident light to be incident upon the thin film layers at a plurality of angles greater than or equal to the critical angle for the highest refractive index of the low refractive index layers; the thickness of the low refractive index layers of the plurality of thin film layers being small enough so that light incident upon the thin film layers at an angle greater than the critical angle can be partially coupled out through the low refractive index layers such that frustrated total internal reflection occurs, thus permitting interference to take place between light reflected at the interfaces of the all thin film layers; and in addition, the thicknesses of the thin film layers being such that an equivalent optical admittance of the plurality of the thin film layers for s-polarized light is substantially the same as an optical admittance of the substrate for s-polarized light for a wide-range of angles of incidence and a broad-band of wavelengths when the incident light is incident upon the low refractive index layers at an angle greater that the critical angle, thereby allowing substantially all incident s-polarized light to be substantially transmitted; the plurality of the thin film layers having an equivalent optical admittance for p-polarized light that is substantially different from the optical admittance of the substrate for p-polarized light for a wide-range of angles of incidence and a broad-band of wavelengths and thus substantially reflecting all incident p-polarized light.
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Specification