Brian Bergstein at The Boston Globe speaks with Bob Mumgaard SM '15, PhD '15, CEO of MIT spinout Commonwealth Fusion Systems, about the company’s efforts to advance fusion technologies. “When the federal government said in 2012 that it would cut funding for the experimental fusion reactor on campus, the MIT researchers took that as an opportunity to develop new fusion techniques — which eventually formed the basis of CFS’s plans,” writes Bergstein.
The Economist chronicles the life and work of Prof. Nuno Loureiro, from his childhood in Portugal where he dreamed of becoming a scientist to his work at MIT as a “fusion pioneer” leading the Plasma Science and Fusion Center. “He walked into his classes beaming, ready to cover the blackboard with figures. He joked like a friend, but he worked his students vigorously, advising them that if they were not yet the best, they should strive to be. Failure was not to be feared, because it showed they were trying to tackle the really hard problems.”
Prof. Nuno F.G. Loureiro is remembered as a “brilliant ‘physicist’s physicist,’” who “pushed for revolutionary breakthroughs in the complex, arcane field of plasma science,” in a tribute by Boston Globe reporter Brian MacQuarrie. “Inside and outside the lab, Mr. Loureiro also was known for a charismatic leadership style that combined warmth, humor, and personal engagement in the relentless pursuit of excellence,” MacQuarrie writes. “Nuno represents what MIT treasures in its people,” notes Prof. Joseph Paradiso, “at the top of his game in research, but with a wide-ranging curious mind ready to grapple with new ideas.”
Researchers at MIT have developed a new physical model that can help “improve predictions of proton mobility across a wide range of metal oxides,” reports Ameya Paleja for Interesting Engineering. “This can help develop new materials and technologies powered by protons as charge carriers, rather than relying on lithium, which is widely used now,” explains Paleja.
Gizmodo reporter Gayoung Lee writes that scientists from the sPHENIX Collaboration, including MIT physicists, announced that the sPHENIX detector passed a “standard candle” test with “flying colors, correctly catching and measuring the energy level of colliding gold ions traveling close to the speed of light.” Lee notes that: “Passing the test bodes well for the detector’s future,” explaining that the detector was designed to precisely measure products of high-speed particle collisions. “The sPHENIX detector is like a ‘giant 3D camera’ tracking the number, energy, and paths of particles generated by a single collision.”
Interesting Engineering reporter Saoirse Kerrigan spotlights a number of MIT research projects from the past decade. MIT has “long been a hub of innovation and ingenuity across multiple industries and disciplines,” writes Kerrigan. “Every year, the school’s best and brightest debut projects that push the boundaries of science and technology. From vehicles and furniture to exciting new breakthroughs in electricity generation, the school’s projects have tackled an impressive variety of subjects.”
MIT spinoff Commonwealth Fusion System has made its first direct corporate power purchase agreement with Google, reports Timothy Gardner for Reuters. Google plans to buy 200 megawatts of fusion power from Commonwealth Fusion Systems’ first grid-scale fusion power plant in Chesterfield County, Virginia.
Prof. Yet-Ming Chiang, Shreya Dave '09, SM ’12, PhD '16, Bob Mumgaard SM '15, PhD '15 and Sloan alumna Emily Reichert have been named to the 2025 Boston Globe Tech Power Players list for their efforts in the energy sector, reports Hiawatha Bray for The Boston Globe. Chiang emphasizes the importance of federal funding in advancing scientific research. “My entire career has been supported by US taxpayers,” Chiang says. “The ability to give back and develop technologies and create jobs, that’s a big motivator for me.”
Astronomers from MIT and other institutions have discovered a “population of previously hidden galaxies that could shake up astrophysics,” reports Ian Randall for Newsweek. “If confirmed, this new population would effectively break all of our current models of galaxy numbers and evolution,” says graduate student Thomas Varnish.
In a letter to The Guardian, Research Scientist Florian Metzler, Research Affiliate Matt Lilley and their colleagues highlight the important advancements being made in cold fusion research. “Cold fusion could result in spectacular technologies. But we are convinced that the way forward requires rigorous, open-source scientific investigation, not more claims,” they write. “In many ways, cold fusion’s time has come. Advances in theory and experiment have made the LENR field eminently actionable.”
Newsweek reporter Tom Howarth spotlights MIT spinout Commonwealth Fusion Systems as they announced plans to “build the world's first grid-scale commercial nuclear fusion power plant” in Virginia. “The plant is expected to generate 400 megawatts of electricity, enough to power approximately 150,000 homes or large industrial facilities,” writes Howarth.
Commonwealth Fusion Systems, an MIT spinoff, plans to build “the nation’s first grid-scale fusion power plant in Virginia by the early 2030s,” reports Laura Vozzella and Gregory S. Schneider for The Washington Post. “Fusion is a long-sought source of power that can generate almost limitless energy by combining atomic nuclei,” they write. “It is unlike fission, the more common form of nuclear energy, in which the nucleus is split, and which generates large amounts of radioactive waste.”
MIT spinoff Commonwealth Fusion Systems has shared their plans “to build its first commercial power plant” in Virginia, reports Aaron Pressman for The Boston Globe. “Commonwealth aims to build a complete power plant with a fusion machine generating heat used to spin turbines and make 400 megawatts of electric power, enough to supply 150,000 homes, by the mid-2030s,” explains Pressman.
Commonwealth Fusion Systems, an MIT spinout, has announced plans to “build its first fusion power plant in Virginia, with the aim of generating zero-emissions electricity there in the early 2030s,” reports Raymond Zhong for The New York Times. “The proposed facility is among the first to be announced that would harness nuclear fusion, the process that powers the sun, to produce power commercially, a long-elusive goal that scientists have pursued for the better part of a century,” explains Zhong.
MIT spinout Commonwealth Fusion Systems has announced plans to build the “world’s first grid-scale fusion power plant in Virginia, to generate power by the early 2030s,” reports Timothy Gardner for Reuters. The project, “could revolutionize the global energy industry by tapping into a virtually limitless power source, similar to that which fuels the stars,” writes Gardner.