Dichroic optical filter
First Claim
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1. A dichroic optical filter, including:
- a substrate that is substantially transparent to visible radiation, wherein the substrate has a front surface;
a coating on the front surface, wherein the coating includes;
an oxide semiconductor layer that is highly reflective to a selected infrared wavelength, has optical thickness substantially less than one quarter of the selected infrared wavelength, and is substantially transparent to visible radiation; and
a first multilayer coating for enhancing the filter'"'"'s reflectance to the selected infrared wavelength, wherein the first multilayer coating includes thick layers having a higher refractive index alternating with thick layers having a lower refractive index, wherein each of the thick layers has an optical thickness substantially equal to one quarter of the selected infrared wavelength, and wherein each of the thick layers is substantially transparent to visible radiation.
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Abstract
A dichroic optical filter including a substrate that is substantially transparent to visible radiation, and an oxide semiconductor layer on the substrate for reflecting an infrared wavelength (such as an infrared treatment beam wavelength). An example of a suitable oxide semiconductor for reflecting a treatment beam from a CO2 layer is indium tin oxide. Preferably, the filter includes a specially designed multilayer coating on the oxide semiconductor layer to enhance the reflection of infrared and longer wavelength radiation. This multilayer coating includes alternating quarter-wave layers of high and low refractive index materials, each having an optical thickness substantially equal to a quarter-wavelength of infrared radiation to be reflected. Preferably also, the multilayer coating includes a thin multilayer coating between each pair of adjacent quarter-wave layers, with these thin multilayer coatings being designed to enhance the filter'"'"'s transmission of visible radiation, while not significantly affecting the filter'"'"'s reflection of infrared wavelengths. Also preferably, the multilayer coating includes a second multilayer coating which reflects a narrow band of visible radiation (such as visible radiation from a HeNe laser aiming beam), while transmitting most visible wavelengths.
31 Citations
8 Claims
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1. A dichroic optical filter, including:
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a substrate that is substantially transparent to visible radiation, wherein the substrate has a front surface; a coating on the front surface, wherein the coating includes; an oxide semiconductor layer that is highly reflective to a selected infrared wavelength, has optical thickness substantially less than one quarter of the selected infrared wavelength, and is substantially transparent to visible radiation; and a first multilayer coating for enhancing the filter'"'"'s reflectance to the selected infrared wavelength, wherein the first multilayer coating includes thick layers having a higher refractive index alternating with thick layers having a lower refractive index, wherein each of the thick layers has an optical thickness substantially equal to one quarter of the selected infrared wavelength, and wherein each of the thick layers is substantially transparent to visible radiation. - View Dependent Claims (2)
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3. A micromanipulator system, including:
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a source of coherent radiation; and a beam combining optic positioned to receive the coherent radiation, and comprising a substrate having a front surface and a coating on the front surface, wherein the substrate is substantially transparent to visible radiation, wherein the coating includes an oxide semiconductor layer, wherein the oxide semiconductor layer is highly reflective to a selected infrared wavelength, has optical thickness substantially less than one quarter of the selected infrared wavelength, and is substantially transparent to visible radiation, and wherein the coating also includes a first multilayer coating for enhancing the reflectance of the beam combining optic to the selected infrared wavelength, wherein the first multilayer coating includes thick layers having a higher refractive index alternating with thick layers having a lower refractive index, wherein each of the thick layers has an optical thickness substantially equal to one quarter of the selected infrared wavelength, and wherein each of the thick layers is substantially transparent to visible radiation. - View Dependent Claims (4, 5, 6)
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7. A dichroic optical filter, including:
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a substrate that is substantially transparent to visible radiation, wherein the substrate has a front surface; a coating on the front surface, wherein the coating includes; an oxide semiconductor layer that has a reflectivity of more than 50% to a selected infrared wavelength and is substantially transparent to visible radiation; and a first multilayer coating for enhancing the filter'"'"'s reflectance to the selected infrared wavelength, wherein the first multilayer coating includes thick layers having a higher refractive index alernating with thick layers having a lower refractive index, wherein each of the thick layers has an optical thickness substantially equal to one quarter of the selected infrared wavelength, and wherein each of the thick layers is substantially transparent to visible radiation, and wherein the combined reflectivity of the first multilayer coating and the oxide semiconductor layer to the selected infrared wavelength is substantially equal to at least 90%.
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8. A micromanipulator system, including:
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a source of coherent radiation; and a beam combining optic positioned to receive the coherent radiation, and comprising a substrate having a front surface and a coating on the front surface, wherein the substrate is substantially transparent to visible radiation, wherein the coating includes an oxide semiconductor layer, wherein the oxide semiconductor layer has a reflectivity of more than 50% to a selected infrared wavelength and is substantially transparent to visible radiation, and wherein the coating also includes a first multilayer coating for enhancing the reflectance of the beam combining optic to the selected infrared wavelength, wherein the first multilayer coating includes thick layers having a higher refractive index alternating with thick layers having a lower refractive index, wherein each of the thick layers has an optical thickness substantially equal to one quarter of the selected infrared wavelength, and wherein each of the thick layers is substantially transparent to visible radiation, and wherein the combined reflectivity of the first multilayer coating and the oxide semiconductor layer to the selected infrared wavelength is substantially equal to at least 90%.
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Specification
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Current AssigneeLumenis Limited (Boston Scientific Corporation)
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Original AssigneeCoherent Inc (Coherent Corp.)
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InventorsTrost, David, Baumeister, Philip, Fischer, Dennis
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Primary Examiner(s)Ben, Loha
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Assistant Examiner(s)Juba, Jr., John
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Application NumberUS08/119,336Time in Patent Office348 DaysField of Search359/359, 359/360, 359/583, 359/584, 359/585, 359/589, 359/590, 359/580US Class Current359/359CPC Class CodesG02B 5/282 reflecting for infrared and...
