Abstract: A connector for use in coupling an optical signal between an optical fiber in an optical plug mounted to a bottom of a silicon photonics (SiPh) chip is provided. The connector comprises: a curved mirror; and a tilted flat mirror; wherein at least one of the curved mirror and the tilted flat mirror is formed on a hardened stamped imprint material that was deposited on the SiPh chip at least in a cavity thereof.

Abstract: A method comprising: stamping imprint material that was deposited on a silicon photonics (SiPh) chip and at least in a cavity thereof to form a curved mirror shape and a tilted flat mirror shape; coating at least a portion of each the curved mirror shape and the tilted flat mirror shape with a reflective material to form a first curved mirror and first tilted flat mirror; and mounting the SiPh chip in a flip-chip orientation to a substrate.

Abstract: Apparatus and method for detachably connecting at least one optical fiber of a detachable photonic plug to a photonic integrated circuit (PIC). The detachable photonic plug comprises: a detachable plug die; an optically transparent spacer coupled to the detachable plug die; and at least one optical fiber held between the detachable plug die and the spacer. On the PIC side, apparatus includes a receptacle adapted to receive a detachable photonic plug adapted to couple at least one optical fiber to a photonic integrated circuit (PIC); and a photonic bump of the PIC, the photonic bump having a least one fine alignment feature. The method comprises permanently mounting a receptacle over at least a portion of the PIC; after completion of mounting, inserting the detachable photonic plug into the receptacle; and after the detachable photonic plug is inserted in the receptacle, securing the detachable photonic plug in the receptacle.

Abstract: A photometric test system for LED luminaires. The system uses photodetective panels to detect and measure light. By placing an optical absorber layer with low reflectivity and low transmissivity over the photodetective panels, a detection surface which is also an absorber is achieved. This absorber reduces reflection of incident light from the device under test (DUT), and light reflected from the photodetective panels. A pinhole array can be conveniently used for this purpose. This enables the measurement area of the system to be essentially no larger than the emitting area of the DUT. A diffuser positioned between the absorber layer and the photodetective panels increases the accuracy of the system. Simulations and experimental results show that this system can measure total flux with an uncertainty of 4.3%. The demonstrated system is used in 2? geometry. The system measures total flux, color parameters (such as CCT, CRI, chromaticity) and flicker.

Abstract: A method for maintaining high availability of an optical wireless data communications link including a first optical terminal and a second optical terminal undergoing free-space communications. A first signal modulated on a first optical carrier is transmitted from the second optical terminal to the first optical terminal. A second signal modulated on a second optical carrier is transmitted from the first optical terminal to the second optical terminal. A first received signal strength of the first signal is monitored and a second received signal strength of the second signal is monitored. Upon detecting the first received signal strength to be less than a previously determined value, the first received signal strength is provided upon request to the second optical terminal by switching off the second signal and encoding the first received signal strength as a second realignment signal onto the second optical carrier. The second optical terminal is realigned based on the second realignment signal.

Abstract: A free space optical transceiver including an electro-optical conversion unit having a transmission port and a reception port, with centers separated by a first distance; an optics unit adapted to lead a light beam from the atmosphere to the reception port and to lead a light beam from the transmission port to the atmosphere, wherein the optics unit includes at least one optical element having a diameter larger than the first distance.