Method and system for stabilized directional couplers
First Claim
1. A method for communication, the method comprising:
- in a system comprising first and second directional couplers that comprise first and second waveguides, wherein the first waveguide comprises a length extender increasing a length of the first waveguide with respect to the second waveguide between said first and second directional couplers, wherein the length extender has a length that results in a phase difference of 3+2*n*pi where n is an integer, and wherein said first and second directional couplers comprise reduced spacing between said first and second waveguides on opposite sides of said length extender and the first directional coupler has a coupling of X percent while the second directional coupler has a coupling of 100−
X percent;
communicating an input optical signal into one of said first and second waveguides;
coupling at least a portion of said input optical signal between said first and second waveguides in said first directional coupler and coupling at least a portion of the coupled optical signal between said first and second waveguides in said second directional coupler; and
communicating optical signals out of said system at a desired percentage of said input optical signal.
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Abstract
Methods and systems for stabilized directional couplers are disclosed and may include a system comprising first and second directional couplers formed by first and second waveguides, where one of the waveguides may comprise a length extender between the directional couplers. The directional couplers may be formed by reduced spacing between the waveguides on opposite sides of the length extender. An input optical signal may be communicated into one of the waveguides, where at least a portion of the input optical signal may be coupled between the waveguides in the first directional coupler and at least a portion of the coupled optical signal may be coupled between the waveguides in the second directional coupler. Optical signals may be communicated out of the system with magnitudes at a desired percentage of the input optical signal. The length extender may add phase delay for signals in one of the first and second waveguides.
21 Citations
20 Claims
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1. A method for communication, the method comprising:
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in a system comprising first and second directional couplers that comprise first and second waveguides, wherein the first waveguide comprises a length extender increasing a length of the first waveguide with respect to the second waveguide between said first and second directional couplers, wherein the length extender has a length that results in a phase difference of 3+2*n*pi where n is an integer, and wherein said first and second directional couplers comprise reduced spacing between said first and second waveguides on opposite sides of said length extender and the first directional coupler has a coupling of X percent while the second directional coupler has a coupling of 100−
X percent;communicating an input optical signal into one of said first and second waveguides; coupling at least a portion of said input optical signal between said first and second waveguides in said first directional coupler and coupling at least a portion of the coupled optical signal between said first and second waveguides in said second directional coupler; and communicating optical signals out of said system at a desired percentage of said input optical signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A system for communication, the system comprising:
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first and second directional couplers that comprise first and second waveguides, wherein the first waveguide comprises a length extender increasing a length of the first waveguide with respect to the second waveguide between said first and second directional couplers, wherein the length extender has a length that results in a phase difference of 3+2*n*pi where n is an integer, and wherein said first and second directional couplers are formed by reduced spacing between said first and second waveguides on opposite sides of said length extender and the first directional coupler has a coupling of X percent while the second directional coupler has a coupling of 100−
X percent, said system being operable to;receive an input optical signal into one of said first and second waveguides; couple at least a portion of said input optical signal between said first and second waveguides in said first directional coupler and couple at least a portion of the coupled optical signal between said first and second waveguides in said second directional coupler; and communicate optical signals out of said system at a desired percentage of said input optical signal. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19)
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20. A system for communication, the system comprising:
a 1×
3 directional coupler comprising first and second directional couplers comprising first, second, and third waveguides, wherein;said first waveguide comprises a first length extender and said third waveguide comprises a second length extender; said first and second length extenders being located between said first and second directional couplers, each length extender having a length that results in a phase difference of 3+2*n*pi where n is an integer; and said first and second directional couplers comprise reduced spacing between said first waveguide and said second waveguide and reduced spacing between said third waveguide and said second waveguide on opposite sides of said first and second length extenders and said first directional coupler has a 100 percent coupling from the second waveguide to the first and third waveguides and the second directional coupler has a 33 percent coupling of the input light back to the second waveguide, said directional coupler being operable to; receive an input optical signal into said second waveguide; couple at least a portion of said input optical signal between said second waveguide and said first waveguide in said first directional coupler and couple at least a portion of the coupled optical signal between said second waveguide and said third waveguide; and couple at least a portion of said coupled optical signals in said first and third waveguides back to said second waveguide in said second directional coupler such that optical signals communicated out of said 1×
3 directional coupler are each the same as said input optical signal but each are at equal magnitudes that are ⅓
the magnitude of said input optical signal.
Specification