Technologist III

New ideas are all around us, but only a few will change the world. That’s our focus at JPL. We ask the biggest questions, then search the universe for answers—literally. We build upon ideas that have guided generations, then share our discoveries to inspire generations to come. Your mission—your opportunity—is to seek out the answers that bring us one step closer. If you’re driven to discover, create, and inspire something that lasts a lifetime and beyond, you’re ready for JPL. Located in Pasadena, California, JPL has a campus-like environment situated on 177 acres in the foothills of the San Gabriel Mountains and offers a work environment unlike any other: we inspire passion, foster innovation, build collaboration, and reward excellence. The Avionics, Power, & Instrument Electronics Section (345) in the Autonomous Systems and Advanced Software Division (34) provides leadership and unique world-class expertise in defining system architectures and electronics platforms for avionics, motor control, power, and instruments; leveraging simulation, support equipment and PLM solution infrastructure, critical partnerships and technology development. The Photovoltaic, Electrochemical, and Thermoelectric Systems group (345J) provides support for JPL, NASA, and non-NASA customers by performing basic research, technology development, flight delivery, and mission support. We invite you to join the Photovoltaic, Electrochemical, and Thermoelectric Systems group (345J) within the Avionics, Power & Instrument Electronics to serve as a Technologist III. You will be reporting administratively to the Group Supervisor of the Photovoltaic, Electrochemical, and Thermoelectric Systems group. Within the Photovoltaic, Electrochemical, and Thermoelectric Systems Group, the Thermoelectric team’s principal focus is the development of advanced thermoelectric materials and Radioisotope Thermoelectric Generator (RTG) technologies to support future NASA missions. The team also performs IV&V testing for state-of-the-art RTG technologies, including MMRTG components. Projects in the group include: a) developing next-generation, high-performance thermoelectric materials and thermal insulation beyond state-of-the-art SiGe and PbTe/TAGS materials; b) infusing the most promising materials into advanced thermoelectric devices for both space and commercial applications, with efforts spanning TRL 3 to 5/6; c) designing advanced RTG concepts and conducting performance modeling; d) predicting RTG life performance; and e) performing IV&V for state-of-the-art RTG technologies and components, including the MMRTG and the Mod1 RTG under development. The group’s capabilities range from materials synthesis, processing, and characterization (powder metallurgy, hot pressing, spark plasma sintering) to prototype device development and testing, as well as long-duration life testing and lifetime prediction based on physics-based models. Initial tasks will include: Lead the Next Gen RTG industry support effort for JPL. Lead the development of skutterudite-based thermoelectric converters for ORNL. Complete reestablishing and sustain aerogel material production within the group. Pursue new business opportunities and lead proposal development efforts.