INL employees have been with the power system since its arrival in Florida, providing support and ensuring the multi-mission radioisotope thermoelectric generator is performing as designed. INL teams work in rotating shifts, spending a couple weeks at Kennedy Space Center before returning to Idaho. A larger group will head south closer to launch when the multi-mission radioisotope thermoelectric generator is run through its final paces before being integrated into the rover and placed atop an Atlas rocket headed for Mars.

It takes a lot of smart people pulling in the same direction to get to that point.

The Jet Propulsion Laboratory (JPL) manages the Mars 2020 Project for NASA’s Science Mission Directorate, and works with other national labs, universities, international partners and private companies to build the rover, which is designed to traverse the surface of the Red Planet, studying its geology and seeking signs of ancient life.

“Working with groups like NASA and JPL, it’s not an experience you get everywhere,” said Brandon Horkley, an Idaho Falls native and engineer in the RPS Department. “The way everyone in the program works together is amazing.”

INL’s team is familiar with strict protocols and training standards when assembling and testing the multi-mission radioisotope thermoelectric generator at the Space and Security Power Systems Facility in the Idaho desert. They train and practice long before they begin the actual work.

“We had a lot of turnover since 2011 (when the team worked on the power system for the Mars Curiosity Rover),” Rich said. “We did a lot of training to get everyone to the same standards. One of the benefits of our group is the camaraderie. We all work really well together, and this helps us reach the same goal.”

That camaraderie continues when INL’s team becomes part of a much larger group integrating individual components into what will become the Perseverance Rover in Florida. Members of the team headed to Florida in February to simulate the work they perform at Kennedy Space Center to become familiar with the procedures, facilities and staff members on-site.

“It’s another level of complexity at Kennedy Space Center,” Horkley said. “The operations we perform are similar to what we perform here at INL; however, we have to perform those operations alongside other groups such as NASA and JPL. Our procedures and operations must hand off effectively with the other groups, and it all has to flow. The stress level is definitely higher down there because there’s no room for error.”

This year’s work included the additional challenge of dealing with the COVID-19 virus, including the increased precautions during travel and on-site.

“There were some hiccups to travel plans and how things would work when we got down there,” Horkley said. “But things actually went pretty smooth.”

The days can be long and tedious and the work demanding, all with a hard deadline looming. If the team were to miss the short launch window, the project would be delayed more than two years.

“Our part of the process is one little piece,” Horkley said. “But it can’t be done without us.”


The team provided the power source for the Pluto New Horizons spacecraft, which launched in 2006 and continues to send back data as it nears the edges of our galaxy, and the Mars Curiosity Rover, launched in 2011 and cruising around the surface of the Red Planet nearly 10 years later.

And there’s more to look forward to.

The next INL-assembled and tested multi-mission radioisotope thermoelectric generator will power the Dragonfly rotorcraft lander mission that will explore Saturn’s largest moon, Titan. That mission is scheduled to launch in 2026. The Space Nuclear Power and Isotopes Systems group is also getting more involved in space reactors for both nuclear thermal propulsion and fission surface power applications.

“To me, it’s kind of a once-in-a-lifetime experience,” Horkley said. “Hopefully, I’m around for a few more. We don’t have the opportunity to fuel and test an RTG every year, so it’s great to be involved in something like this.”


After several years of training, preparing and working to get the latest multi-mission radioisotope thermoelectric generator where it belongs on the back of Perseverance, Rich said he’s ready for the mission to begin.

“I was on the backup team and left Florida before the Curiosity Rover launched, so I watched that from Idaho,” he said. “It’s been a goal of mine since working on the project to be a part of this and to see it in person, so it will be nice to be there this time.”

“So let’s get this done,” Rich said. “Let’s launch this thing.”