John Glennon

Title: John Glennon: Innovator in Photonic Technology

Introduction: John Glennon, an accomplished inventor based in Boulder, CO, has made significant contributions to the field of photonic technology with a total of four patents to his name. His innovative work focuses on reconfigurable photonic integrated circuits, which have the potential to revolutionize various applications in imaging and communication systems.

Latest Patents: One of John Glennon's latest patents is the Reconfigurable Photonic Integrated Circuit Focal Plane Array (RPIC-FPA). This advanced technology consists of detectors coupled with a photonic integrated circuit designed to mix a return signal beam with local oscillator (LO) beams. The purpose is to create a combined beam that directs to the detectors. Notably, the LO beams possess reconfigurable optical properties, providing flexibility in their functionalities. The RPIC-FPA allows for switching between a direct detection mode and multiple coherent detection modes by adjusting the optical properties of the LO beams. In coherent detection mode, the controller mixes the return signal beam with the LO beam to produce the combined beam. Conversely, in direct detection mode, it directs the return signal beam to the detectors without mixing, enhancing detection capabilities.

Career Highlights: Throughout his career, John Glennon has collaborated with leading companies such as Lockheed Martin and Coherent Technologies, Inc. His work has contributed to advancements in photonic systems, showcasing his expertise in the field.

Collaborations: John has worked alongside notable colleagues, including Piotr Konrad Kondratko and Philip Gatt. These collaborations have fostered a productive environment, leading to innovative ideas and solutions within their respective projects.

Conclusion: John Glennon's innovative contributions to photonic technology and his impressive portfolio of patents highlight his role as a leading inventor in the field. His work continues to push the boundaries of what is possible in photonic integrated circuits, paving the way for future advancements in imaging and communication technologies.