Multi-line narrowband-pass filters
First Claim
1. A multiple pass band, thin film optical filter with at least three pass bands located at arbitrary wavelengths, comprising:
- a first single pass band filter having a first pass band at a first wavelength, including;
a first quarterwave stack of thin film layers alternating between layers of a first dielectric material having a first refractive index and layers of a second dielectric material having a second refractive index, the optical thickness of each layer in the first stack being substantially one fourth of the first wavelength; and
a first half wave layer interposed within the first stack having an optical thickness which is an integral multiple of one half of the first wavelength, such that the reflectivities of the portions of the first stack on either side of the first half wave layer are substantially identical;
a second single pass band filter having a second pass band at a second wavelength, including;
a second quarterwave stack of thin film layers alternating between layers of the first dielectric material and layers of the second dielectric material, the optical thickness of each layer in the second stack being substantially one fourth of the second wavelength; and
a second half wave layer interposed within the second stack having a thickness which is an integral multiple of one half of the second wavelength, such that the reflectivities of the portions of the second stack on either side of the second half wave layer are substantially identical; and
a third half wave layer interposed between the first and second single pass band filters having a thickness which is an integral multiple of one half of a third wavelength,the first single pass band filter providing a filter with a single cavity pass band at the first wavelength, the second single pass band filter providing a filter with a single cavity pass band at the second wavelength, and the third half wave layer providing a pass band at the third wavelength.
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Accused Products
Abstract
A multiple pass band, thin film optical filter includes a first single pass band filter having a first pass band at a first wavelength, with a first quarterwave stack of thin film layers alternating between layers of a first dielectric material having a first refractive index and layers of a second dielectric material having a second refractive index, the optical thickness of each layer in the first stack being substantially one fourth of the first wavelength. A first half wave layer is interposed within the first stack and has an optical thickness which is an integral multiple of one half of the first wavelength, such that the reflectivities of the portions of the first stack on either side of the first half wave layer are substantially identical. A second single pass band filter having a second pass band at a second wavelength, includes a second quarterwave stack of thin film layers alternating between layers of the first dielectric material and layers of the second dielectric material, the optical thickness of each layer in the second stack being substantially one fourth of the second wavelength, and a second half wave layer interposed within the second stack having a thickness which is an integral multiple of one half of the second wavelength, such that the reflectivities of the portions of the second stack on either side of the second half wave layer are substantially identical. The first and second single pass band filters are combined in series to provide a filter with a pass band at the first wavelength and a pass band at the second wavelength.
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Citations
4 Claims
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1. A multiple pass band, thin film optical filter with at least three pass bands located at arbitrary wavelengths, comprising:
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a first single pass band filter having a first pass band at a first wavelength, including; a first quarterwave stack of thin film layers alternating between layers of a first dielectric material having a first refractive index and layers of a second dielectric material having a second refractive index, the optical thickness of each layer in the first stack being substantially one fourth of the first wavelength; and a first half wave layer interposed within the first stack having an optical thickness which is an integral multiple of one half of the first wavelength, such that the reflectivities of the portions of the first stack on either side of the first half wave layer are substantially identical; a second single pass band filter having a second pass band at a second wavelength, including; a second quarterwave stack of thin film layers alternating between layers of the first dielectric material and layers of the second dielectric material, the optical thickness of each layer in the second stack being substantially one fourth of the second wavelength; and a second half wave layer interposed within the second stack having a thickness which is an integral multiple of one half of the second wavelength, such that the reflectivities of the portions of the second stack on either side of the second half wave layer are substantially identical; and a third half wave layer interposed between the first and second single pass band filters having a thickness which is an integral multiple of one half of a third wavelength, the first single pass band filter providing a filter with a single cavity pass band at the first wavelength, the second single pass band filter providing a filter with a single cavity pass band at the second wavelength, and the third half wave layer providing a pass band at the third wavelength. - View Dependent Claims (2)
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3. A method of making a multiple pass band, thin film optical filter with at least three pass bands located at arbitrary wavelengths, comprising the steps of:
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providing a first single pass band filter having a first pass band at a first wavelength, including the steps of; providing a first quarterwave stack of thin film layers alternating between layers of a first dielectric material having a first refractive index and layers of a second dielectric material having a second refractive index, the optical thickness of each layer in the first stack being substantially one fourth of the first wavelength; and interposing within the first stack a first half wave layer having an optical thickness which is an integral multiple of one half of the first wavelength, such that the reflectivities of the portions of the first stack on either side of the first half wave layer are substantially identical; providing a second single pass band filter having a second pass band at a second wavelength, including the steps of; providing a second quarterwave stack of thin film layers alternating between layers of the first dielectric material and layers of the second dielectric material, the optical thickness of each layer in the second stack being substantially one fourth of the second wavelength; and interposing within the second stack a second half wave layer having a thickness which is an integral multiple of one half of the second wavelength, such that the reflectivities of the portions of the second stack on either side of the second half wave layer are substantially identical; combining the first and second single pass band filters in series to provide a filter with a single cavity pass band at the first wavelength and a single cavity pass band at the second wavelength; and interposing between the first and second single pass band filters a third half wave layer having a thickness which is an integral multiple of one half of a third wavelength, thereby providing a third pass band at a third wavelength. - View Dependent Claims (4)
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Specification