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Physicists map excess gamma rays from 13 fission nuclei in single experiment

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In a single experiment, physicists measured excess high-energy gamma-ray emissions from more than a dozen heavy, unstable atomic nuclei produced in nuclear fission. The mapping of gamma rays from 13 isotopes marks a step toward better understanding the fission process.

The Experiment

Researchers conducted a single experiment to measure gamma-ray emissions from fission fragments. They identified excess high-energy gamma rays from 13 unstable nuclei. The measurement was performed at a particle accelerator facility.

Fission Insights

The excess gamma rays provide data on the de-excitation of fission fragments. This helps refine models of nuclear fission, a key process in nuclear physics. The study involved isotopes with atomic masses between 80 and 160.

What's Next

The team plans to extend measurements to other fissioning systems. It remains unclear how the new data will alter existing theoretical models.

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Physicists map excess gamma rays from 13 fission nuclei in single experiment