Company Filing History:
1 out of 832,843 Years Active: 2023
Title: Jason Pele - Innovator in Optical Sampling Architectures
Introduction
Jason Pele is a notable inventor based in Sunnyvale, CA (US). He has made significant contributions to the field of optical sampling architectures. His innovative work has led to the development of a unique patent that enhances the capabilities of optical systems.
Latest Patents
Jason Pele holds a patent for "Resolve path optical sampling architectures." This patent describes optical sampling architectures and methods for their operation. The architecture is capable of emitting a launch sheet light beam towards a launch region and receiving a detection sheet light beam from a detection region. The launch region has one dimension that is elongated relative to another dimension, and similarly, the detection region can also have an elongated dimension. This design allows the system to selectively accept light with various properties, such as angle of incidence, beam size, and beam shape. In some instances, the elongated dimension of the detection region is greater than that of the launch region. The system may also include an outcoupler array and associated components to create a launch sheet light beam with varying in-plane launch positions and angles.
Career Highlights
Throughout his career, Jason has focused on advancing optical technologies. His work has been recognized for its potential applications in various fields, including telecommunications and imaging systems. His innovative approach to optical sampling has set a new standard in the industry.
Collaborations
Jason has collaborated with talented individuals such as Mark Alan Arbore and Matthew Austin Terrel. These partnerships have fostered a creative environment that has led to groundbreaking advancements in optical sampling technologies.
Conclusion
Jason Pele is a distinguished inventor whose work in optical sampling architectures has made a significant impact in the field. His patent showcases innovative methods that enhance the functionality of optical systems. His contributions continue to inspire advancements in technology.