Company Filing History:
1 out of 14 
1 out of 832,843 Years Active: 2004-2022
Title: Innovations of Jonathan D. Scheuch: A Pioneer in Hyper-Spectral Technology
Introduction
Jonathan D. Scheuch, an innovative inventor based in New London, NH, has made significant contributions to the fields of hyper-spectral imaging and light-emitting devices. With two patents to his name, he has developed systems that enhance the capabilities of illumination and testing technologies.
Latest Patents
Jonathan's latest patents showcase his ingenuity and technical expertise. The first patent, titled "System and methods for providing a uniform and tunable hyper-spectral source," details an illumination system that includes an illumination source and a dispersive optical element. This invention allows for the generation of a spectral image utilizing a digital micro-mirror device (DMD) that calculates the activation of reflective elements to align with targeted illumination output signals.
His second patent, "Prober for testing light-emitting devices on a wafer," introduces a prober for measuring light output from digital devices formed on a single wafer. This invention features a light-integrating sphere that aligns with selected devices, allowing for individual measurement of light output, specifically for vertical cavity surface emitting lasers (VCSELs) and light-emitting diodes (LEDs).
Career Highlights
Jonathan has built a notable career, working with reputable organizations such as Labsphere, Inc. His role has involved advancing technologies that influence various sectors, particularly in illumination and optical measurement.
Collaborations
Throughout his professional journey, Jonathan has collaborated with skilled individuals, including David J. Griffiths and Sean David Griffin. Their joint efforts have undoubtedly contributed to the success of his innovative projects.
Conclusion
Jonathan D. Scheuch stands as a prominent figure in the realm of technology, with his patents underscoring his commitment to innovation. His contributions are not only noteworthy for their technical merit but also for the potential impact they hold in advancing light-emitting technologies and hyper-spectral imaging applications.