On a day certain to rank in the upper echelon of Lawrence Livermore National Laboratory’s historical milestones, Department of Energy (DOE) and National Nuclear Security Administration (NNSA) officials, members of Congress, past Lab directors, employees and partners gathered on May 8 to celebrate the Lab’s 2022 fusion ignition achievement.
Even a light shower couldn’t dampen the enthusiasm for the celebration, as the hundreds in attendance honored the researchers, stakeholders and supporters that made the successful Dec. 5, 2022, shot possible. On that date, scientists conducted an experiment at the National Ignition Facility (NIF) that produced more energy from a fusion reaction than the laser energy required to create it, otherwise known as ignition — a historic first.
More than five months removed from the earth-shaking result, distinguished speakers at the celebration lauded the achievement as a “remarkable breakthrough” for stockpile stewardship and national security, and the start of what officials said they hope will open the floodgates to developing fusion as a viable, carbon-free energy source.
With NIF serving as a backdrop for the speakers’ on-stage remarks, LLNL Director Kim Budil, the event’s emcee, welcomed the throngs in the audience and the many more employees watching online to an “extraordinary class reunion” of fusion’s luminaries, sponsors and supporters. DOE Secretary Jennifer Granholm called fusion the “holy grail” of clean energy, and honored the countless scientists, researchers target fabrication experts and operations teams who contributed to ignition over the past 60-plus years, including fusion pioneer and former Lab director John Nuckolls, who was in attendance for the event.
“Today isn’t just a celebration of what we’ve achieved with ignition; it’s a declaration of all that still to come,” Granholm said. “Thank you all for joining us, for all the tireless work that I know you put into getting us into this exciting moment, and for all the invaluable contributions I know you’ll be making in the months and the years ahead, because once you have harnessed the power of the stars, I imagine there is no limit to how bright we can shine.”
Granholm, who stressed the importance of public-private partnerships with industry to developing commercial fusion energy, capitalized on the moment to announce a new Inertial Fusion Energy Science & Technology Accelerated Research (IFE-STAR) funding opportunity of up to $45 million from DOE’s Office of Science. The funding — up to $9 million in Fiscal Year 2023 for projects of up to four years in length — will support creation of innovation hubs combining expertise from DOE national laboratories, academia and industry to advance inertial fusion research.
“You can already see the impact [fusion energy investment] is making on the surrounding community and the potential it has to create new jobs and grow the economy,” Granholm said. “Folks are traveling down that magnetic [fusion] pathway, but we don’t have to worry about a road not taken. Thanks to this ignition achievement, we can, and we will see what both pathways hold … We believe that public-private partnerships will be key to getting inertial fusion to that next level.”
Following Granholm’s comments, DOE Under Secretary for Nuclear Security and NNSA Administrator Jill Hruby thanked the “thousands of employees and partners who’ve dedicated their careers to making this achievement possible.” Hruby said ignition has opened new chapters in NNSA’s science-based Stockpile Stewardship Program and heralds a key step toward “unlocking the potential for a clean energy source that could revolutionize the world.”
“Reaching ignition in a controlled fusion experiment was an achievement that took six decades to realize, from the notional idea discussed here just after the invention of the laser, and involved development, engineering, experimentation and partnerships. It also confirmed something important — that the U.S. still leads big science and knows how to turn ideas into reality,” Hruby said.
“It has given us so much hope for the future.”
NNSA Deputy Administrator for Defense Programs Marvin “Marv” Adams followed Hruby by explaining the extreme difficulty of ignition from a technical standpoint, and the “nearly perfect” precision required to achieve it — from the laser power to the thickness of the target capsule surface and the materials used in the reaction. Adams praised Lab computer scientists, diagnostic teams and designers for overcoming the array of challenges to accomplish the “remarkable” feat, adding that it will lead to new experimental regimes in stockpile stewardship and help the U.S. further avoid a return to underground nuclear testing, while supporting nonproliferation efforts.
“It’s very important for our national security,” Adams said. “The achievement we celebrate today illustrates that big, important accomplishments often take longer and require more effort than originally predicted, but that big, important accomplishments are often more than worth that time and effort.”
In her remarks, LLNL Director Budil acknowledged generations of Lab researchers, as well as previous directors, collaborators and the broader fusion community for their 60 years of effort to advance national security and making “this extraordinary moment a reality.” Budil closed by calling ignition a “testament to the importance of long-term public investment in science” — a pursuit that has opened new frontiers in high energy density science and exploration of the most extreme states of matter in the universe.
“With the achievement of ignition, we’ve opened a new era of national security applications using high fusion yields and demonstrated the fundamental building block for an inertial fusion energy source — truly a game-changing technology,” Budil said. “Today is not the end of the journey; it marks the beginning of what will be an incredible era of discovery and innovation.”
U.S. Rep. Zoe Lofgren (D-CA18), a longtime supporter of NIF, recalled past battles for funding of fusion ignition experiments dating back to the 1990s. Lofgren stressed the value of supporting ongoing fusion research as a potential clean energy source to help combat climate change, and said the Lab’s achievement has ignited support in the U.S. Congress to appropriate additional funding for fusion as recommended by the Fusion Energy Sciences Advisory Committee (FESAC).
“Now is the time to move aggressively towards the deployment of fusion energy,” Lofgren said. “We are so used to people who scoff at that concept, but we all know because of your efforts, we’re closer than ever.”
After the ceremony, the speakers were joined by U.S. Rep. Eric Swalwell (D-CA14) and participated in a press conference, where they discussed the next steps in fusion research and the path for commercial fusion energy.
“We are always trying to achieve energy that is clean and abundant and reliable,” Granholm told reporters. “If you can replicate the process that’s on the sun, you provide abundant renewable energy; that’s really what fusion is. We’re not there yet. People who are excited about clean energy should be really excited about the discovery here, because it means that that holy grail of 100-percent clean energy, that doesn’t provide any waste, is possible.”
LLNL’s Budil said the future could include upgrades to NIF, and more collaborations with private companies to improve the target fabrication processes, along with further increases to NIF’s energy output to aid in reproducing ignition on a regular basis.
“What we’re embarking on now is a refurbishment of many of the components of the lasers that have been operating at full tilt for more than a decade, and many of its subsystems need some significant maintenance,” Budil said. “It’s going to be an exciting few years, and we think this facility has the potential to produce more laser energy. And as we’ve shown, a little bit of energy goes a long way in these experiments.”
Budil added that while the Lab has yet to replicate the groundbreaking Dec. 2022 experiment so far in 2023, LLNL is continuing to produce new targets and is working to perfect the process for future experiments with conditions that more closely resemble the ignition shot.
Department of Energy (DOE) and National Nuclear Security Administration (NNSA) officials, members of Congress, past Lawrence Livermore National Laboratory (LLNL) directors, employees and partners gathered on May 8 to celebrate the Lab’s 2022 fusion ignition achievement. Pictured are (l-r) NNSA Livermore Field Office Manager Janis Parenti, NNSA Deputy Administrator for Defense Programs Marvin “Marv” Adams, DOE Secretary Jennifer Granholm, DOE Under Secretary for Nuclear Security and NNSA Administrator Jill Hruby, LLNL Director Kim Budil and U.S. Rep. Zoe Lofgren. Photo by Blaise Douros.
In her remarks, LLNL Director Kim Budil acknowledged generations of Lab researchers, previous Lab directors, collaborators and the broader fusion community for their 60 years of effort to advance fusion research and national security, and for making “this extraordinary moment a reality.” Photo by Jason Laurea.
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