Intel corporation (20240329320). DENSE PHOTONIC INTEGRATED CIRCUIT OPTICAL EDGE COUPLING simplified abstract
Contents
DENSE PHOTONIC INTEGRATED CIRCUIT OPTICAL EDGE COUPLING
Organization Name
Inventor(s)
Nicholas D. Psaila of Lanark (GB)
Richard Laming of Santa Clara CA (US)
DENSE PHOTONIC INTEGRATED CIRCUIT OPTICAL EDGE COUPLING - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240329320 titled 'DENSE PHOTONIC INTEGRATED CIRCUIT OPTICAL EDGE COUPLING
Simplified Explanation: The patent application describes an optical interconnect component that facilitates the transmission of light between a photonic integrated circuit and optical fibers connected to a ferrule. The component includes a step with a ledge and a facet, optical beam management elements on its surface, and multiple integrated optical waveguides.
- The optical interconnect component has a step with a ledge and a facet.
- It features optical beam management elements on its surface.
- Multiple integrated optical waveguides extend from the facet, defining optical ports.
- The optical beam management elements are aligned with the integrated optical waveguides but separated from their ends.
Potential Applications: 1. Data centers for high-speed optical communication. 2. Telecommunication networks for efficient light transmission. 3. Medical devices for optical sensing and imaging applications.
Problems Solved: 1. Facilitates efficient transmission of light between photonic integrated circuits and optical fibers. 2. Provides precise alignment and management of optical beams. 3. Enhances the performance of optical interconnect assemblies.
Benefits: 1. Improved data transfer speeds and reliability. 2. Enhanced optical signal quality. 3. Simplified integration of optical components.
Commercial Applications: Optical interconnect components like the one described in the patent application can be utilized in the telecommunications industry for high-speed data transmission, in medical devices for optical sensing applications, and in data centers for efficient communication.
Prior Art: Readers interested in prior art related to this technology can explore research papers, patents, and industry publications on optical interconnect components, integrated optical waveguides, and optical beam management elements.
Frequently Updated Research: Researchers are continually exploring advancements in optical interconnect technology, including improvements in optical waveguide design, beam management techniques, and integration with photonic integrated circuits.
Questions about Optical Interconnect Components: 1. How do optical interconnect components improve data transfer speeds in telecommunications networks? 2. What are the key challenges in integrating optical interconnect components with photonic integrated circuits?
Original Abstract Submitted
an optical interconnect component for use in transmitting light between a photonic integrated circuit and one or more optical fibres attached to an optical fibre connector ferrule is disclosed. the optical interconnect component comprises a step formed at an edge of the optical interconnect component, the step including a ledge and a facet, one or more optical beam management elements formed in a surface of the optical interconnect component, and a plurality of integrated optical waveguides. each of two or more of the integrated optical waveguides extends from the facet so as to define a plurality of optical ports at the facet, and each of the one or more optical beam management elements is aligned with, but separated from, an end of a corresponding one of the plurality of integrated optical waveguides. also disclosed are an optical fibre connector ferrule, an optical interconnect assembly comprising the optical interconnect component and the optical fibre connector ferrule, and an optical system comprising the optical interconnect assembly, a photonic integrated circuit, and one or more optical fibres.