James L Wong

Title: Innovations of James L Wong

Introduction

James L Wong is a notable inventor based in Livermore, CA (US). He has made significant contributions to the field of gamma-ray spectroscopy, holding a total of 4 patents. His work focuses on real-time identification methods for radioactive materials, showcasing his expertise in nuclear science and technology.

Latest Patents

One of his latest patents is the "Real time gamma-ray signature identifier." This invention presents a method and system that utilizes principal components analysis (PCA) to transform and reduce comprehensive spectral libraries of nuclear materials. It allows for the identification of unknown gamma-ray signatures by comparing them against representative signatures, significantly reducing processing time and computing resources. Another important patent is the "Real time method and computer system for identifying radioactive materials from HPGe gamma-ray spectroscopy." This system collects gamma count rates from a HPGe gamma-radiation detector to produce a high-resolution gamma-ray energy spectrum. It includes a library of nuclear material definitions, enabling real-time identification of materials based on spectral parameters.

Career Highlights

James has worked with prestigious organizations such as the University of California and Lawrence Livermore National Security, LLC. His experience in these institutions has contributed to his innovative research and development in the field of nuclear materials identification.

Collaborations

Throughout his career, James has collaborated with notable individuals, including Douglas E Howard and Mark S Rowland. These partnerships have likely enhanced his research and led to advancements in his patented technologies.

Conclusion

James L Wong's contributions to gamma-ray spectroscopy and nuclear materials identification demonstrate his innovative spirit and dedication to advancing technology in this critical field. His patents reflect a commitment to improving real-time identification methods, which can have significant implications for safety and security in various applications.