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2026 Nuclear Energy Conference & Expo (NECX)
August 24–27, 2026
Dallas, TX|Hilton Anatole
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May 2026
Latest News
Antares achieves zero-power criticality at INL
Leveraging more than $140 million in private capital fundraising, over 322,000 square feet of operational manufacturing space, and multifaceted partnerships with the Departments of Energy and Defense, reactor start-up Antares has become the first company involved in the Reactor Pilot Program to achieve zero-power fueled criticality—a full month ahead of the July 4 deadline set by President Trump’s Executive Order 14301.
This milestone, announced yesterday, was achieved with the company’s Mark-0: a sodium heat-pipe-cooled, TRISO-fueled microreactor. The Mark-0 is a forerunner to the company’s flagship design, which it calls the R1. For Antares, this development represents a key validation of its reactor physics, control systems, and supply chain.
Sota Araki, Indah Rosidah Maemunah, Rio Miyazawa, Yamato Fujii, Nuri Trianti, Shingo Tamaki, Isao Murata
Fusion Science and Technology | Volume 82 | Number 4 | May 2026 | Pages 873-880
Research Article | doi.org/10.1080/15361055.2025.2561350
Articles are hosted by Taylor and Francis Online.
The authors’ group is conducting benchmark experiments for cross sections of large-angle scattering by deuterium-tritium neutrons. For a benchmark experiment for large-angle scattering, the cross section of lithium, an activation foil that has a large activation reaction cross section in the 7- to 11-MeV energy range, is required. For such a foil, 180Hf is potential material. However, few benchmark experiments for the 180Hf(n,n')180mHf activation reaction cross section have been carried out so far, and thus, the data have uncertainty. Therefore, a benchmark experiment for the activation reaction cross section is indispensable. In this study, we conducted a benchmark experiment for the activation reaction cross section of 180Hf(n, n')180mHf by using a 252Cf neutron source. From the results, we found that the activation reaction cross section in JENDL-5 overestimated the activation reaction cross section by 21.7% in energies of 7 to 11 MeV, so we assume that the shape of the cross-section curve is correct.
