![]() The gas barrier material can be arranged as part of a component, such as a container or other vessel, to limit the flow or permeation of gas through the component. Gas Barrier Material with Atomic Sheet - A gas barrier material includes an atomic sheet, such as graphene and/or an analog of graphene. The methods can be readily scaled to produce bulk quantities of metal nanoparticles. Each metal nanoparticle can include a metal shell formed around a nucleus derived from a nanoparticle seed, and the metal shell can include a metal from the second metal salt. Methods for making metal nanoparticles can include providing a first metal salt in a solvent converting the first metal salt into an insoluble compound that constitutes a plurality of nanoparticle seeds and after forming the plurality of nanoparticle seeds, reacting a reducing agent with at least a portion of a second metal salt in the presence of at least one surfactant and the plurality of nanoparticle seeds to form a plurality of metal nanoparticles. METAL NANOPARTICLES FORMED AROUND A NUCLEUS AND SCALABLE PROCESSES FOR PRODUCING SAME - Metal nanoparticles and compositions derived therefrom can be used in a number of different applications. The disease detection circuitry is configured to apply the model to the data events to detect an occurrence of the disease. The model is generated using machine learning technique based on time-series data events from patients that are diagnosed with/without the disease. The memory circuit is configured to store configurations of a model for detecting a disease. The interface circuit is configured to receive data events associated with a patient sampled at different time for disease detection. The system includes an interface circuit, a memory circuit, and a disease detection circuitry. ![]() METHOD AND APPARATUS FOR DISEASE DETECTION - Aspects of the disclosure provide a system for disease detection. Some embodiments amplify an optical signal in a gain fiber having an output end, output the forward-propagating amplified signal as a high-brightness optical beam (having a first Rayleigh range) into a removable delivery fiber having a non-circular waveguide, output the amplified signal from a distal end of the delivery fiber, and, without the use of a non-linear optical isolator, inhibit backward-propagating light from re-entering the gain fiber. Some embodiments use a delivery fiber having a non-circular core in order to spread a single-mode signal into multiple modes such that any backward-propagating reflection is inhibited from reentering the single-mode amplifier. Eliminating the isolator improves efficiency and reduces cost. SYSTEM AND METHOD FOR A DELIVERY FIBER FOR ISOLATION AGAINST BACK REFLECTIONS - An apparatus and method that provide optical isolation by permitting substantially all forward-propagating light into a delivery fiber from an optical amplifier and substantially preventing backward-traveling light from the delivery fiber entering the optical amplifier without the use of a conventional optical isolator. The resulting set of conforming layers can be sealed. The process may be repeated to form multiple layers of conforming circuits with electrical connections between layers formed by blind microvias. The first set of conforming layers is created by applying an oxide dielectric layer to the surface, applying a conductive material layer to the oxide dielectric layer, applying a resist layer to the conductive material layer, patterning the resist layer according to a desired circuit layout, etching the surface to remove exposed conductive material, and stripping the resist layer. Lockheed Martin Corporation Lockheed Martin Corporation Patent applicationsįINE LINE 3D NON-PLANAR CONFORMING CIRCUIT - A method of producing a non-planar conforming circuit on a non-planar surface includes creating a first set of conforming layers.
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