This disclosure describes techniques for operating a lidar device. The techniques include emitting light resulting in a plurality of non-parallel laser beam waves; directing the plurality of non-parallel laser beam waves towards a laser beam scanner; reflecting the non-parallel plurality of beam waves by the laser beam scanner towards a collimator device; collimating, with the collimator device, the plurality of non-parallel laser beam waves reflected by the laser beam scanner into a corresponding plurality of parallel plane waves; and directing the plurality of plane waves from the collimator device towards a field of interest.

An optical transceiver for connection between an optical socket and an electrical socket is disclosed. The optical transceiver includes an electrical connector and an optical connector. The optical transceiver has an electronics housing holding the electrical and optical connectors in relative position to each other allowing the simultaneous connection to an electrical socket and an optical socket. The electrical and optical connectors may be moved between an extended position and a retracted position relative to the electronics housing when being engaged or disengaged with respective electrical and optical sockets.

A distributed antenna system comprises: a plurality of ports configured to receive downstream signals or transmit upstream signals; a plurality of first antennas configured to transmit the downstream signals or receive the upstream signals; a power regulating unit coupled between the plurality of ports and the plurality of first antennas and configured to transfer and regulate the downstream signals or the upstream signals, wherein the power regulating unit comprises: a plurality of first links respectively corresponding to different frequency bands, and a first power regulating section configured to regulate power of link signals transferred over each first link, such that link signals of different frequency bands transferred over the plurality of first links have substantially the same power. The solution of the present disclosure can support input of signals at multiple frequency bands, achieve power balance and improve system performance and wireless coverage effects.

An optical signal transceiver in a transistor outline package includes a component base, a laser device, a first wavelength division multiplexing prism and a second wavelength division multiplexing prism, a first photodetector, and a second photodetector. The component base is inside the transistor outline package and supports the laser device, the laser device emitting light to the outside of the transistor outline package. The first and second prisms and the first photodetector and the second photodetector are also located on the component base. Light output as optical signals sequentially pass through the first and second multiplexing prisms. The first input optical signal is transmitted to the first photodetector through the first prism, and the second input optical signal passes through the first prism and is passed on to the second photodetector via the second prism.

Access nodes of a large-scale network are arranged into a number of groups. The groups are arranged into a number of bands. Each distributor of a pool of distributors interconnects each access node of a selected group to at least one channel from each group of a selected band. A discipline of allocating the selected group and the selected band to a distributor ensures that each access node has: a number, approximately equal to half the number of groups, of parallel single-hop paths to each other access node of a same group; a number, approximately equal to half the number of bands, of parallel single-hop paths to each access node of a different group within a same band; and one single-hop path to each other access node of a different access band. To eliminate the need for cross connectors, geographically-spread distributors are arranged into geographically-spread constellations of collocated distributors.

Aspects for active alignment for assembling optical imaging systems are described herein. As an example, the aspects may include aligning an optical detector with an optical component. The optical component is configured to alter a direction of one or more light beams emitted from an image displayed by an optical engine. The aspects may further include detecting, by the optical detector, a virtual image generated by the one or more light beams emitted by the optical engine; and adjusting, by a multi-axis controller, an optical path of the one or more light beams based on one or more parameters of the virtual image collected by the optical detector.

A signal processor apparatus includes: first and second photonic comb generators generating respective first and second combs with respective different first and second tone spacing; modulator modulating the first comb with an analog input signal; combiner combining the modulated first comb with the second comb and directing the combination results to first and second arms; spectral filter unit for each arm dividing each arm into a plurality of sub-bands; plurality of photodetectors, one for each sub-band of each arm, each photodetector outputting an electrical signal carrying information on the respective sub-band of the input signal; phase-shifter adjusting a relative phase of the first and second combs with respect to each other prior to the combiner; sensor system producing an output related to a phase difference between the first and second combs at the combiner; and controller controlling the phase-shifter based on the output of the sensor system.

A pair of acousto-optic deflectors (AODs) is used to steer a pair of laser beams to address individual atoms of an array of atoms so that the beams can conditionally induce a 2-photon transition between the atom's quantum energy levels. The first beam is deflected into a +1 diffraction order, resulting in an AOD output beam with a frequency greater than that of the respective AOD input beam. The second beam is deflected into a −1 diffraction order so that the AOD output beam has a frequency less than that of the respective AOD input beam. The equal and opposite frequency changes compensate it other so that the sum of the output frequencies remains resonant with the transition of interest. Thus, AODs can be used to steer laser beams to address individual atoms of an atom array.

Optical communication modules and associated methods and computer program products for performing network communication security are provided. An example optical module includes a substrate, a first optoelectronic component supported by the substrate configured for operation with optical signals having a first wavelength, and a second optoelectronic component supported by the substrate configured for operation with optical signals having a second wavelength. The module further includes an optical communication medium defining a first end in optical communication with the first optoelectronic component and the second optoelectronic component and a second end. The module also includes security circuitry operably connected with the first optoelectronic component and the second optoelectronic component. The security circuitry determines the presence of a noncompliant component coupled with the optical communication medium at the second end based upon operation of the second optoelectronic component.

A waveguide substrate configured includes a first surface, a second surface opposite the first surface, and a communication side having at least one projecting boss that at least partially defines a bore for receiving a ferrule of an optical connector. Each projecting boss includes an outboard end from which the bore extends into the waveguide substrate, and an end of the bore within the waveguide substrate defines an optical interface surface. At least one waveguide within the waveguide substrate extends from the optical interface surface. A first slot is formed in each projecting boss between the associated bore and the first surface, with the first slot extending from the outboard end of the projecting boss and along a majority of the bore.