Company Filing History:
2 out of 83 
2 out of 10 
Years Active: 2015-2017
Title: Scott Henry Bekker: Innovator in Optical Signal Technology
Introduction
Scott Henry Bekker is a notable inventor based in Bozeman, Montana. He has made significant contributions to the field of optical signal technology, holding two patents that showcase his innovative approach to single-sideband suppressed carrier (SSBSC) optical signals. His work has implications for high-bandwidth communication systems.
Latest Patents
Bekker's latest patents include techniques for single-sideband suppressed carrier optical signals. The first patent describes a method and apparatus that utilizes an optical source for a single order SSBSC optical signal with a bandwidth that scales from over 4 gigahertz to at least 8 GHz from an optical carrier frequency. This apparatus features a stable laser source, a radio frequency electrical source, an optical modulator, and an optical filter designed to output a modulated optical signal. The second patent expands on this technology, detailing techniques that scale to bandwidths exceeding 20 gigahertz. This invention also includes a stable laser source, a radio frequency electrical source, and an optical modulator, emphasizing the importance of precise filtering to achieve high-performance optical signals.
Career Highlights
Throughout his career, Bekker has worked with esteemed institutions such as Montana State University and S2 Corporation. His experience in these organizations has allowed him to develop and refine his innovative technologies in optical communications.
Collaborations
Bekker has collaborated with talented individuals in his field, including Colton Richard Stiffler and Kristian D Merkel. These partnerships have contributed to the advancement of his research and the successful development of his patents.
Conclusion
Scott Henry Bekker is a prominent figure in the realm of optical signal technology, with patents that reflect his expertise and innovative spirit. His contributions continue to influence the field and pave the way for future advancements in high-bandwidth communication systems.