Mark Rhodes
About Mark Rhodes
Mark Rhodes is an electrical engineer and forensic engineering consultant with over 30 years of experience, specializing in electrical fires and power line-related wildland fires. He holds a PhD in Applied Plasma Physics from UCLA and currently works at Lawrence Livermore National Labs, where he developed the Plasma Electrode Pockels cell.
Work at Lawrence Livermore National Laboratory
Mark Rhodes has worked at Lawrence Livermore National Laboratory as an Electrical Engineer since 1989. Over the course of his 35-year tenure, he has contributed to various projects, particularly in the field of high-energy lasers. One of his notable achievements includes the development of the Plasma Electrode Pockels cell, which plays a significant role in high-energy laser applications. His work involves designing and operating complex experimental devices, showcasing his expertise in advanced electrical engineering.
Education and Expertise
Mark Rhodes holds a Bachelor of Science in Electrical Engineering (BSEE) from Tufts University, which he completed from 1972 to 1976. He furthered his education at UCLA, where he earned a Master of Science in Applied Plasma Physics in 1977 and a PhD in the same field from 1978 to 1981. His academic background provides a strong foundation for his specialization in forensic engineering, particularly in cases involving electrical fires and power line-related wildland fires.
Background
Mark Rhodes has over 30 years of experience in the field of electrical engineering. His career encompasses a wide range of expertise, particularly in designing and operating complex experimental devices related to high-energy lasers, particle accelerators, and plasma confinement. This extensive background supports his role as a forensic engineering consultant, where he applies his knowledge to analyze electrical equipment malfunctions and related injuries.
Achievements
Throughout his career, Mark Rhodes has served as an expert witness in legal cases involving electrical equipment malfunctions and injuries. His extensive expertise includes handling cases related to electrical shocks and arcs in industrial settings. His contributions to the field of electrical engineering, particularly at Lawrence Livermore National Laboratory, reflect his commitment to advancing technology and safety in electrical applications.