Wavelength division optical multiplexing elements
First Claim
1. An optical demultiplexer comprising:
- an input optical waveguide;
N output optical waveguides, N being a whole number greater than or equal to 2, each output waveguide including a wavelength-selective configuration of optical filtering elements comprising at least (N-1 ) Bragg gratings, each of said Bragg gratings having at least one wavelength band of low transmissivity, λ
x where x is a number between 1 and N, said configuration of optical filtering elements forming an optical filter transmitting a characteristic wavelength band, the characteristic wavelength band being the wavelength band λ
n of the Bragg grating absent from the configuration of optical filtering elements in the waveguide; and
an element positioned between said input waveguide and said output waveguides for splitting optical transmissions from the input waveguide to the output waveguides.
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Abstract
The present invention relates to methods and apparatus for wavelength division multiplexing (WDM) using arrays of optical filtering elements to create a desired wavelength passband in an optical filter. In one aspect of the invention, an optical demultiplexer is formed using an input waveguide, such as a planar waveguide or an optical fiber, coupled to plural output waveguides. Each output waveguide includes a wavelength selective configuration of optical filtering elements formed within a contiguous portion of the waveguide forming an optical channel-selective filter having spectral regions having an optical transmission passband and spectral regions of low transmissivity. Exemplary optical filtering elements are Bragg gratings formed into an optical filter which transmits a characteristic wavelength band.
132 Citations
9 Claims
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1. An optical demultiplexer comprising:
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an input optical waveguide; N output optical waveguides, N being a whole number greater than or equal to 2, each output waveguide including a wavelength-selective configuration of optical filtering elements comprising at least (N-1 ) Bragg gratings, each of said Bragg gratings having at least one wavelength band of low transmissivity, λ
x where x is a number between 1 and N, said configuration of optical filtering elements forming an optical filter transmitting a characteristic wavelength band, the characteristic wavelength band being the wavelength band λ
n of the Bragg grating absent from the configuration of optical filtering elements in the waveguide; andan element positioned between said input waveguide and said output waveguides for splitting optical transmissions from the input waveguide to the output waveguides. - View Dependent Claims (2, 3)
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4. An optical demultiplexer comprising:
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an input optical waveguide; N output optical waveguides, where N is a whole number greater than or equal to 3, each of said output waveguides transmitting a characteristic wavelength band, λ
n, where n is a whole number from 1 to N;Y branching waveguides positioned between said input waveguide and said output waveguides where Y is a whole number greater than or equal to 2 and less than or equal to N-1; positioned within said output waveguides and said branching waveguides are a plurality of optical filtering elements, each optical filtering element having a wavelength band of low transmissivity λ
x, where x is a whole number from 1 to N and is not equal to n, said plurality of optical filtering elements configured such that within the optical path of the transmission emitted from each output waveguide are positioned at least N-1 optical filtering elements, each of the at least N-1 optical filtering elements having a different wavelength band of low transmissivity, the combination of the optical filtering elements being such that the combination of the low transmissivity wavelength bands of each of the at least N-1 optical filtering elements results in the transmission of the characteristic wavelength, λ
n ;an element for splitting optical transmission from the input waveguide to the branching waveguides positioned between the input waveguide and the branching waveguides; and elements positioned between the branching waveguides and the output waveguides for splitting optical transmission from the branching waveguides among the output waveguides. - View Dependent Claims (5, 6, 7)
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8. An optical communications system comprising:
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an optical source; a modulator for modulating light from said optical source to create a modulated optical signal having a plurality of wavelength bands; a transmission member for transmitting said optical signal; and an optical demultiplexer for separating wavelength bands from said optical signal, said optical demultiplexer comprising; an input optical waveguide; N output optical waveguides, N being a whole number greater than or equal to 2, each output waveguide including a wavelength-selective configuration of optical filtering elements comprising at least (N-1) Bragg gratings, each of said Bragg gratings having at least one wavelength band of low transmissivity, λ
x where x is a number between 1 and N, said configuration of optical filtering elements forming an optical filter transmitting a characteristic wavelength band, the characteristic wavelength band being the wavelength band λ
n of the Bragg grating absent from the configuration of optical filtering elements in the waveguide; andan element positioned between said input waveguide and said output waveguides for splitting optical transmissions from the input waveguide to the output waveguides.
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9. An optical communications system comprising:
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an optical source; a modulator for modulating light from said optical source to create a modulated optical signal having a plurality of wavelength bands; a transmission member for transmitting said optical signal; and an optical demultiplexer for separating wavelength bands from said optical signal, said optical demultiplexer comprising; an input optical waveguide; N output optical waveguides, where N is a whole number greater than or equal to 3, each of said output waveguides transmitting a characteristic wavelength band, λ
n where n is a whole number from 1 and N;Y branching waveguides positioned between said input waveguide and said output waveguides where Y is a whole number greater than or equal to 2 and less than or equal to N-1; positioned within said output waveguides and said branching waveguides are a plurality of optical filtering elements, each optical filtering element having a wavelength band of low transmissivity λ
x, where x is a whole number from 1 to N and is not equal to n, said plurality of optical filtering elements configured such that within the optical path of the transmission emitted from each output waveguide are positioned at least N-1 optical filtering elements, each of the at least N-1 optical filtering elements having a different wavelength band of low transmissivity, the combination of the optical filtering elements being such that the combination of the low transmissivity wavelength bands of each of the at least N-1 optical filtering elements results in the transmission of the characteristic wavelength, λ
n ;an element for splitting optical transmission from the input waveguide to the branching waveguides positioned between the input waveguide and the branching waveguides; and elements positioned between the branching waveguides and the output waveguides for splitting optical transmission from the branching waveguides among the output waveguides.
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Specification