Abstract: The present disclosure relates to a tunable laser-based spectroscopy system for accurately and non-invasively measuring body water content. The body water content is one of the important health indicators, by which one can quantitatively monitor the hydration level of body and determine if it is necessary to supplement or reduce the body water. The disclosed systems, devices, and/or methods may improve wavelength accuracy, wavelength resolution, optical spectral power density, signal-to-noise ration, and available implementation options for the spectroscopy system.

Abstract: As the traffic volume carried by telecommunication networks has been rapidly increased as a result of the bandwidth-intensive applications such as Internet access, electronic commerce, multimedia applications, and distributed computing, it is imperative to utilize the optical network for backbone, metropolitan, and local area networks. The optical networks employing optical fibers as the transmission medium have exhibited a superior performance/cost ratio for both long-haul and short-haul routes and the emerging dense wavelength division multiplexing (DWDM)/all-optical networks have shown a promising potential to improve speed, capacity and connectivity of optical telecommunication networks. The present invention provides Micro-Opto-Electro-Mechanical Waveguide Switch (MOEM-WS) by integrating MEMS actuators and micromachined PLCs on the same substrate.

Abstract: A 1XN (or NX1) optical connector for steering light is provided, which may be formed into an optical cross connecter. The optical connector generally includes a plurality of N stages, each stage including a liquid crystal cell and a polarizing beam splitter. The liquid crystal cell, in certain embodiments in the form of an array of LC cells, has a first state for transmitting a first polarization component of the light and a second state for transmitting a second polarization component of the light. The polarizing beam splitter structure reflects one of the polarization states and transmits the other polarization state into one of 2N outputs. Of course, the direction of light can be reversed, forming an NX1 cell. A key advantage of the present invention is the integration of components to form a monolithic structure.

Abstract: Variable optical delay (VOD) systems are provided that include optical switching techniques, and optical manifold techniques, and/or index switching techniques. In certain embodiments, liquid crystal cells are used to impart fine delay in a VOD system. Medium delay may be provided with index switching systems. Course delay may be provided with total-internal-reflection or polarization based optical manifold systems, or micro-fluidic based optical manifold systems. These fine, medium and course delays may be integrated in a single VOD system to provide a wide range and high resolution delay.

Abstract: A combination optical element is disclosed wherein the functions of an optical isolator, a variable attenuator and an optical switch are combined into a component optical device. The optical element provides robust optical signal generation and detection and can compensate for polarization dependent losses of other optical devices. The proper combination of devices to form the combination optical element is disclosed so that proper propagation of optical signals in the forward and backward direction is preserved.

Abstract: As the traffic volume carried by telecommunication networks has been rapidly increased as a result of the bandwidth-intensive applications such as Internet access, electronic commerce multimedia applications, and distributed computing, it is imperative to utilize the optical network for backbone, metropolitan, and local area networks. The optical networks employing optical fibers as the transmission medium have exhibited a superior performance/cost ratio for both long-haul and short-haul routes and the emerging dense wavelength division multiplexing (DWDM)/all-optical networks have shown a promising potential to improve speed, capacity and connectivity of optical telecommunication networks. The present invention provides Micro-Opto-Electro-Mechanical Waveguide Switch (MOEM-WS) by integrating MEMS actuators and micromachined PLCs on the same substrate.

Abstract: Since the bandwidth-intensive applications such as Internet access, electronic commerce, multimedia applications, and distributed computing are rapidly increasing the volume of telecommunication traffics, optical networks become an essential backbone of telecommunication networks. The optical networks have shown a superior performance/cost ratio for both long-haul and short-haul routes and the emerging dense wavelength division multiplexing and all-optical network technologies have promised a potential to improve speed, capacity and connectivity of telecommunication networks. The present invention provides a multifunctional intelligent optical module (IOM) by integrating a multitude of photonic, electronic, and micro mechanical elements into a single module.

Abstract: Variable optical delay (VOD) systems are provided that include optical switching techniques, and optical manifold techniques, and/or index switching techniques. In certain embodiments, liquid crystal cells are used to impart fine delay in a VOD system. Medium delay may be provided with index switching systems. Course delay may be provided with total-internal-reflection or polarization based optical manifold systems, or micro-fluidic based optical manifold systems. These fine, medium and course delays may be integrated in a single VOD system to provide a wide range and high resolution delay.

Abstract: a 1XN (or NX1) optical connector for steering light is provided, which may be formed into an optical cross connecter. The optical connector generally includes a plurality of N stages, each stage including a liquid crystal cell and a polarizing beam splitter. The liquid crystal cell, in certain embodiments in the form of an array of LC cells, has a first state for transmitting a first polarization component of the light and a second state for transmitting a second polarization component of the light. The polarizing beam splitter structure reflects one of the polarization states and transmits the other polarization state into one of 2N outputs. Of course, the direction of light can be reversed, forming an NX1 cell. A key advantage of the present invention is the integration of components to form a monolithic structure.

Abstract: Since the bandwidth-intensive applications such as Internet access, electronic commerce, multimedia applications, and distributed computing are rapidly increasing the volume of telecommunication traffics, optical networks become an essential backbone of telecommunication networks. The optical networks have shown a superior performance/cost ratio for both long-haul and short-haul routes and the emerging dense wavelength division multiplexing and all-optical network technologies have promised a potential to improve speed, capacity and connectivity of telecommunication networks. The present invention provides a multifunctional intelligent optical module (IOM) by integrating a multitude of photonic, electronic, and micro mechanical elements into a single module.

Abstract: Over the last several years, the rapidly increasing traffic volume carried by telecommunication networks has been clearly observed as a result of the bandwidth-intensive applications such as Internet access, electronic commerce, multimedia applications, and distributed computing. Optical telecommunication systems employing optical fibers as the transmission medium have exhibited a superior performance/cost ratio for both long-haul and short-haul routes and the emerging dense wavelength division multiplexing (DWDM)/all-optical networks have shown some promising potentials. However there still exists a need to improve speed, capacity and connectivity of optical telecommunication networks, as the information system's subscriber growth increases unrestrained. The present invention provides a reconfigurable and scalable fiber optic switching for optical telecommunication networks by integrating MEMS actuators and PLCs for optical signal switching and routing.

Abstract: Optoelectronic interconnections can provide a practical solution for the ever increasing communication bottleneck problems when combining a multitude of information processing units to perform a function. As research activities progress in the field of serial or parallel board-to-board and module-to-module interconnections, some of the research focus has shifted to smaller physical dimensions, like intra-module interconnections, which combines optoelectronic interconnections, multichip module packaging, and microelectromechanical system (MEMS) technologies at the module level. The present invention provides integrated optical input/output (I/O) couplers on multichip modules (MCMs) using micro-machined silicon mirrors that are used with optoelectronic multichip modules (OE-MCMs). The present invention used microstructures that integrate optical waveguide networks, multilayer electrical transmission line networks, micro-machined silicon mirrors, and C4-bonded photonic devices into a single structure.

Abstract: An optical waveguide H-tree design is provided for global clock distribution on multichip modules (MCM) which has nearly zero clock skew and is useful for a distributed computer system environment. The optical waveguide H-tree design utilizes channel waveguides, curved sections and directional couplers formed using silica glass and silicon oxynitride (SiON) channel waveguide technologies. A hybrid combination of both SiON and silica glass is disclosed which has the advantages of each. The achievable clock speed is limited by the laser diode source and photodiode receiver at each chip module, and not by the optical waveguide distribution network. The high-speed optical waveguide can be configured to transmit clock signals, or for use as a multi-wavelength communication network that communicates signals to various integrated circuits (ICs) mounted on the multichip module. This is achieved using multiple laser diodes having different output wavelengths and directing their outputs into an optical multiplexer.