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2026 ANS Annual Conference
May 31–June 3, 2026
Denver, CO|Sheraton Denver
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Fusion Science and Technology
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Chernobyl at 40 years: Looking back at Nuclear News
Sunday, April 26, at 1:23 a.m. local time will mark 40 years since the most severe nuclear accident in history: the meltdown of Unit 4 at the Chernobyl nuclear power plant in Ukraine, then part of the Soviet Union.
In the ensuing four decades, countless books, documentaries, articles, and conference sessions have examined Chernobyl’s history and impact from various angles. There is a similar abundance of outlooks in the archives of Nuclear News, where hundreds of scientists, advocates, critics, and politicians have shared their thoughts on Chernobyl over the years. Today, we will take a look at some highlights from the pages of NN to see how the story of Chernobyl evolved over the decades.
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.
