Transporter-17 lifts off with BOHR onboard. (Photo: SpaceX)
On July 7, SpaceX launched Transporter-17, a smallsat rideshare mission containing 81 payloads. One of the payloads was the Betavoltaic Orbital High-Reliability (BOHR) satellite developed by City Labs.
According to the company, BOHR is “the world’s first commercial nuclear-powered satellite and first nuclear CubeSat.” The spacecraft also broke new ground in the regulatory process for launch approval for commercial nuclear projects.
Close-up of Realta's direct energy converter assembly prototype. (Photo: Realta, with credit to Dmitry Yakovlev and Tucker Peterson of UW-Madison and Ty Omark of Realta)
Realta Fusion announced it has achieved direct energy conversion at the Wisconsin HTS Axisymmetric Mirror (WHAM), powering a lightbulb using electricity extracted from charged particles emitted by the plasma.
This process, called direct energy conversion (DEC), was theorized by Richard Post, a physicist at Lawrence Livermore National Laboratory, and has been demonstrated experimentally a few times, the earliest being the “Venetian blind” converter in the 1970s.
A still from a NASA video of the PROMISE rover. (Image: "NASA Moon Base Update"/NASA)
NASA has announced that it will release a solicitation related to lunar surface power this month and that it is considering sending a rover powered by a radioisotope thermoelectric generator (RTG) to the moon.
In an ICF experiment at NIF, the lasers converge at tiny entrance holes at the top and bottom of the hohlraum. The intersection of the lasers enables crossed-beam energy transfer, an important factor in maintaining symmetry of implosions. (Image: LLNL)
New calculations by scientists at Lawrence Livermore National Laboratory suggest that changing the polarization of the National Ignition Facility’s lasers could reduce backscatter, an effect that can make an optic unusable after a single shot.
Scientists at the Joint FAO/IAEA Centre showcase the Insect Pest Control Laboratory’s cutting-edge facilities to U.S. expert Heather Walden. (Photo: USUNVIE)
Last week, the International Atomic Energy Agency announced the launch of a coordinated research project focused on a nuclear technique that can tackle the reemergence of New World screwworm (NWS) in Central America, Mexico, and the United States.
Vallecitos hot cell. (Photo: Zeno Power)
Zeno Power announced today that it is restoring hot cell infrastructure at the Vallecitos Nuclear Center to produce radioisotope power systems (RPSs) for use in extreme environments.
“The facility is initially supporting production of strontium-90–fueled nuclear batter[ies] for undersea applications,” said Tyler Bernstein, Zeno cofounder and CEO. “Zeno is also scoping options as it seeks to rapidly scale production of nuclear batteries for space domains.”
The Thea Energy team in front of PPPL’s model stellarator exhibited at the 1958 Atoms for Peace conference in Geneva, Switzerland. (Photo: Michael Livingston/PPPL)
Thea Energy has announced it is working with Nvidia and Synopsys to develop a digital twin of its stellarator fusion power plant concept, called Helios.
The team, which also includes Argonne National Laboratory and Princeton Plasma Physics Laboratory, will “analyze and scale vast datasets, rapidly evolve Thea Energy’s plant designs, and stress-test system operation in a workflow that outpaces traditional tools,” according to the company.
From left, Moe Khaleel, ORNL associate laboratory director; NNSA Administrator Brandon Williams; U.S. Rep. Chuck Fleischmann; ORNL Director Stephen Streiffer; and William Wheeler, ORNL site office manager at the ATOLL ground-breaking ceremony.
On June 3, Brandon Williams, administrator of the National Nuclear Security Administration, was at Oak Ridge National Laboratory to break ground on the Advanced Testbed and Operations Learning Laboratory (ATOLL).
The planned 21,000-square-foot facility, which is scheduled to be completed in mid-2028, will play an important role in the development of workforce expertise and capabilities aimed at monitoring foreign weapons-grade uranium production activities.
From left, Sangmin Park, senior vice president of HD Korea Shipbuilding & Offshore Engineering; Jacopo Buongiorno, Battelle Energy Alliance professor of nuclear science and engineering at MIT; Joshua Divin, ABS senior vice president for marine business development; and Nikolas Vaporis, chief technical officer of Capital Ship Management Corp. display the AIP. (Photo: ABS)
Maritime classification and certification organization the American Bureau of Shipping has granted its approval in principle (AIP) for the integration of a nuclear reactor into a cargo vessel propulsion system, as developed by the Massachusetts Institute of Technology Maritime Consortium. This is the first AIP to be granted to a technology developed through the consortium, which includes founding members MIT, HD Korea Shipbuilding & Offshore Engineering, and Capital Maritime Group.
The MARVEL reactor upper plenum getting welded. (Photo: INL)
On June 1 at the American Nuclear Society’s Annual Conference in Denver, Colo., a team from Idaho National Laboratory presented a session titled “Lessons Learned from MARVEL Reactor Fabrication.” The presentation highlighted challenges that arose as they moved from design to manufacturing and assembly, with a focus on reactor part fabrication, Stirling engine implementation, and reactivity control system development.
Quantum physics research at Idaho National Laboratory. (Photo: INL)
Scientists at Idaho National Laboratory have discovered that plutonium hexaboride (PuB6) displays a type of unusual quantum property called a topological Kondo insulating state. Materials with this property are neither typical electricity conductors nor regular insulators. Rather, they have exterior surfaces that strongly conduct electricity and interiors that block electricity.
As hydrogen reacts with uranium, blisters form in the uranium surface (a), then the blisters burst open (b), and uranium hydride powder is released. This interaction results in surface degradation (c) that can impact the durability and safety characteristics of the uranium metal. (Image: Lawrence Livermore National Laboratory)
A team of scientists from Lawrence Livermore National Laboratory has observed, imaged, and characterized the early stages of hydrogen-uranium corrosion for the first time, the lab announced recently.
The USS Gerald R. Ford. (Photo: USS Gerald R. Ford-CVN 78)
Later this year, the U.S. Navy will test the power-generating capabilities of one of its crown jewels, the nuclear-powered USS Gerald R. Ford—aiming to demonstrate its ability to provide electricity to installations on shore.
The SPL’s hot cell, seen here, has both manually operated and robotic manipulators for the safe handling of irradiated material. (Photo: INL)
Earlier this week, Idaho National Laboratory announced that its Structural Properties Laboratory (SPL) has been fully operational since January. Located at INL’s Materials and Fuels Complex, the SPL houses the lab’s first new hot cell in 50 years.