INTEGRATED OPTICAL LATCH
First Claim
1. An integrated optical circuit device, comprising:
- a first integrated waveguide loop for guiding optical signals;
a nonlinear phase shifting element for phase shifting signals in the first integrated waveguide loop, wherein the nonlinear phase shifting element includes one or more tunable couplers configured with salicide heating elements for optically coupling resonant elements to the first integrated waveguide loop;
a tunable coupler for providing an input pulse in both clockwise and counter-clockwise direction of the first integrated waveguide loop; and
an input coupler for providing a control pulse in at least one direction of the first integrated waveguide loop.
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Accused Products
Abstract
Techniques are disclosed for optical switching and data control, without the interaction of electronic switching speeds. In one example embodiment, a common cavity optical latch is provided that that can hold an optical state for an extended period of time, and the operation of which is controlled optically. Optical phase control allows optical modal switching to be employed between two common optical cavities, using incident optical signals and the way in which the cavities manipulate the phase within them to lock in one or the other configuration, thereby forming an optical latch. The optical latch is implemented in an integrated fashion, such as in a CMOS environment.
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Citations
20 Claims
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1. An integrated optical circuit device, comprising:
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a first integrated waveguide loop for guiding optical signals; a nonlinear phase shifting element for phase shifting signals in the first integrated waveguide loop, wherein the nonlinear phase shifting element includes one or more tunable couplers configured with salicide heating elements for optically coupling resonant elements to the first integrated waveguide loop; a tunable coupler for providing an input pulse in both clockwise and counter-clockwise direction of the first integrated waveguide loop; and an input coupler for providing a control pulse in at least one direction of the first integrated waveguide loop. - View Dependent Claims (2, 6, 7, 8, 9, 10, 11, 12)
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3. An integrated optical circuit device, comprising:
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a first integrated waveguide loop for guiding optical signals; a nonlinear phase shifting element for phase shifting signals in the first integrated waveguide loop, wherein the nonlinear phase shifting element includes n individually tunable resonant elements and a salicide heater structure for providing heat to the n individually tunable resonant elements. a tunable coupler for providing an input pulse in both clockwise and counter-clockwise direction of the first integrated wave guide loop; and an input coupler for providing a control pulse in at least one direction of the first integrated wave guide loop. - View Dependent Claims (4, 5)
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13. An integrated optical circuit device, comprising:
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a first a nonlinear interferometer optical comparator comprising; a first integrated waveguide loop for guiding optical signals; a nonlinear phase shifting element for phase shifting signals in the first integrated waveguide loop; a tunable coupler for providing an input pulse in both clockwise and counter-clockwise direction of the first integrated waveguide loop; and an input coupler for providing a control pulse in at least one direction of the first integrated waveguide loop; a second a nonlinear interferometer optical comparator operatively coupled to the first nonlinear interferometer optical comparator, comprising; a second integrated waveguide loop for guiding optical signals; a nonlinear phase shifting element for phase shifting signals in the second integrated waveguide loop; a tunable coupler for providing an input pulse in both clockwise and counter-clockwise direction of the second integrated waveguide loop; and an input coupler for providing a control pulse in at least one direction of the second integrated waveguide loop; wherein each of the nonlinear phase shifting elements includes one or more salicide heater structures. - View Dependent Claims (14, 15, 16, 17)
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18. An integrated optical circuit device, comprising:
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a first a nonlinear interferometer optical comparator comprising; a first integrated waveguide loop for guiding optical signals; a nonlinear phase shifting element for phase shifting signals in the first integrated waveguide loop; a tunable coupler for providing an input pulse in both clockwise and counter-clockwise direction of the first integrated waveguide loop; and an input coupler for providing a control pulse in at least one direction of the first integrated waveguide loop; a second a nonlinear interferometer optical comparator operatively coupled to the first nonlinear interferometer optical comparator, comprising; a second integrated waveguide loop for guiding optical signals; a nonlinear phase shifting element for phase shifting signals in the second integrated waveguide loop; a tunable coupler for providing an input pulse in both clockwise and counter-clockwise direction of the second integrated waveguide loop; and
an input coupler for providing a control pulse in at least one direction of the second integrated waveguide loop;wherein each of the first and second integrated waveguide loops is a high index contrast (HIC) silicon waveguide, and each of the nonlinear phase shifting elements includes n individually tunable resonant elements and one or more salicide heater structures. - View Dependent Claims (19, 20)
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Specification