Company Filing History:
Years Active: 2001
Title: Rossevelt People: Innovator in Optical Systems
Introduction
Rossevelt People is an accomplished inventor based in Plainfield, NJ (US). He has made significant contributions to the field of optical systems, particularly through his innovative patent related to tunable semiconductor lasers. His work has implications for improving fiber optic systems, showcasing his expertise in this advanced technology.
Latest Patents
Rossevelt People holds a patent for an "Optical system for reduced SBS." This invention features a tunable semiconductor laser that includes a gain section with a multi-quantum well (MQW) active region, a uniform pitch grating distributed feedback (DFB) region, and a first waveguide. The design incorporates a composite reflector, which consists of a second MQW region and a second waveguide, forming a cavity resonator with the DFB region. By applying a tuning voltage to the composite reflector, refractive index changes are induced, allowing for the alteration of the center wavelength. Additionally, a dither signal applied to the composite reflector broadens the spectrum of the laser output, effectively reducing stimulated Brillouin scattering (SBS) in fiber optic systems.
Career Highlights
Rossevelt People is currently employed at Lucent Technologies Inc., where he continues to develop and refine his innovative ideas. His work at this prominent technology company has allowed him to collaborate with other talented professionals in the field.
Collaborations
Some of Rossevelt's notable coworkers include Laura Ellen Adams and Clyde George Bethea. Their collective expertise contributes to the advancement of technology and innovation within their projects.
Conclusion
Rossevelt People is a notable inventor whose work in optical systems has the potential to enhance fiber optic technology significantly. His patent demonstrates a deep understanding of semiconductor lasers and their applications. His contributions to the field are commendable and reflect his dedication to innovation.