OpenMC simulations show a tritium self-sufficient 148Nd blanket in a D-T tokamak can produce over one ton of 147Pm per GWth-year, equivalent to roughly one billion curies annually.
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BABY 1L reports a six-fold higher measured Tritium Breeding Ratio than the prior 100 mL campaign, with experimental values in good agreement with OpenMC simulations and diffusion-limited release dynamics identified.
Simulations of gamma-ray emission from T(D,γ)He-5 and related reactions in SPARC predict that LaBr3 detectors with a polyethylene neutron attenuator can achieve usable signal-to-noise ratios for reconstructing fusion power.
citing papers explorer
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Production of Nuclear Battery $\beta^{-}$ Emitters Driven by Fusion Neutrons
OpenMC simulations show a tritium self-sufficient 148Nd blanket in a D-T tokamak can produce over one ton of 147Pm per GWth-year, equivalent to roughly one billion curies annually.
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BABY 1L: First Tritium Breeding Campaign Results
BABY 1L reports a six-fold higher measured Tritium Breeding Ratio than the prior 100 mL campaign, with experimental values in good agreement with OpenMC simulations and diffusion-limited release dynamics identified.
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Synthetic model of gamma-ray emission during DT experiments on the SPARC tokamak
Simulations of gamma-ray emission from T(D,γ)He-5 and related reactions in SPARC predict that LaBr3 detectors with a polyethylene neutron attenuator can achieve usable signal-to-noise ratios for reconstructing fusion power.