Abstract: Disclosed herein are assemblies for optical communication in quantum computing. For example, in some embodiments, a quantum computing assembly may include control circuitry having an optical interface to external electronic circuitry.

Abstract: A gas sensing device is provided including an enclosure having an internal chamber operable to receive and contain at least one test gas, a photonic heat source positioned to deliver photonic energy into the internal chamber, and a pressure sensor functionally coupled to the internal chamber and operable to detect a pressure change within the internal chamber.

Abstract: An embodiment includes a sensor comprising a substrate die; a photonic ring resonator (RR) on the substrate die; a polymer, on the RR, having an affinity to a chemical analyte; a photonic waveguide on the substrate die and coupled to the RR; a laser, on the substrate die and coupled to the waveguide, to emit optical energy that operates with the RR at a resonance wavelength; and a photodetector, on the substrate die and coupled to the waveguide, to detect a change in refractive index (RI) of the RR operating with the optical energy in response to the polymer coupling to the analyte. Other embodiments are described herein.

Abstract: A gas sensing device is provided including an enclosure having an internal chamber operable to receive and contain at least one test gas, a photonic heat source positioned to deliver photonic energy into the internal chamber, and a pressure sensor functionally coupled to the internal chamber and operable to detect a pressure change within the internal chamber.

Abstract: A thermally tunable resonator includes a resonator body having a resonance wavelength which changes as a function of temperature, a trench formed inside the resonator body, and a disk formed inside the trench and which is made from semiconductor layers, the layers being doped to form a forward biased junction. A first electrode, which does not cover the resonator body, is located atop the disk and in electrical contact with the forward biased junction, and a second electrode is located beneath and in electrical contact with the forward biased junction. When current is applied through the electrodes, heat is generated, changing the resonator body's resonance wavelength. Another thermally tunable resonator has a resonator body and heater in which two contact pads are electrically connected to a resistance above the resonator body. When current is applied to the resistance, heat is generated, changing the resonator body's resonance wavelength.

Abstract: A Mach-Zehnder interferometer has first and second arms with first and second optical paths, and an optical phase shifter for introducing a phase into an optical signal passing through the second optical path. The optical phase shifter includes first and second waveguides, and a phase shift element disposed in a trench between the waveguides and selective movable between a first position in which the optical signal passing from the first waveguide to the second waveguide does not pass through the phase shift element, and a second position in which the optical signal passing from the first waveguide to the second waveguide passes through the phase shift element to shift the optical signal in phase relative to an optical signal passing along the first optical path.

Abstract: An optical waveguide includes a first waveguide section providing weak confinement of an optical signal in a direction generally transverse to its propagation direction, a second waveguide section providing strong confinement of the optical signal in all directions relative to the propagation direction, a tapered neck between the first and second waveguide sections to optically couple those waveguide sections, and a core defined through the first and second waveguide sections and tapered neck, and through which the optical signal may propagate in the propagation direction. A method for making such an optical waveguide.

Abstract: Optical devices employing a Mach-Zehnder interferometer (“MZI”) device having a phase shifter provided in one arm that enables the construction of significantly smaller optical devices than typical photonic devices, and significantly reduces the amount of on-chip real estate occupied by such devices, while not affecting the ability of such devices to introduce a predetermined phase shift in an optical signal. The present invention takes advantage of the extremely small mechanical actuators which can be fabricated using small-scale fabrication techniques, and so significantly reduces the room needed on a chip for optical switches. These more compact switches require less chip space and so provide for denser integration of a plurality of optical devices in an optical component.

Abstract: A Mach-Zehnder interferometer includes a continuous arm defining a first optical path having a length and a non-continuous arm having first and second parts with a trench defined therebetween, the non-continuous arm defining a second optical path the length of which differs from that of the first optical path. A phase shifter is selectively movable between a first position in which the phase shifter introduces no phase shift to a signal traveling along the second optical path and at least a second position at which the phase shift introduces a phase shift to the optical signal traveling along the second path relative to a signal traveling through the first optical path. A M×M optical switch using such a Mach-Zehnder interferometer.

Abstract: An optical switch having an input waveguide and two output waveguides separated by and disposed around a trench. The input waveguide and a first output waveguide have respective optical paths defined by their respective cores which are coaxial with each other. Those waveguides are also separated by a trench having a medium provided therein that has a refractive index different from that of the waveguides. The input waveguide and a second output waveguide are arranged generally on the same side of the trench such that an optical signal passing from the input waveguide to the second output waveguide does not completely traverse the trench.

Abstract: An optical phase shifter including a constant phase shift element or a variable phase shift element, each introducing a desired and predetermined phase shift into an optical signal passing through the phase shifter. The phase shifter has coaxial first and second waveguides each with a core defining an optical path, through the first waveguide and having an output facet, and which waveguides are separated from each other by a predetermined distance. The phase shift element is disposed between the waveguides and an actuator is coupled to the phase shift element for causing selective movement of the phase shift element.

Abstract: A semiconductor p-i-n photodiode having a substrate, an n layer coupled to the surface of said substrate, an i layer coupled to the surface of said n layer, and a carbon doped p layer coupled to the surface of said i layer.