In the HHMAX-ENERGY Linear Field Reverse Configuration (FRC) device, when fusion occurs, two deuterium atoms produce one helium atom and one neutron, releasing a significant amount of energy. When the entire device functions as a neutron source, the large number of neutrons generated by the fusion reaction can be extensively extracted through the opening in the central chamber, while the remaining neutrons are absorbed by the first wall material.
The “Laying Eggs Along the Way” Commercialization Path
Industry Testing Platform
First Wall Material Testing and Tritium Breeding Cladding Performance Testing
Providing commercial-grade neutron irradiation environments for global fusion research institutions to simulate the performance degradation conditions of fusion reactor irradiation rings under real-world conditions, thereby advancing the commercialization of fusion energy for humanity.
Nuclear Medicine
Production of Medical Isotopes and Applications of Boron Neutron Capture Therapy (BNCT)
Fusion devices will provide an ideal neutron source for nuclide production, filling the supply gap. Boron neutron capture therapy (BNCT) is referred to as a physical “targeted drug,” offering significant advantages for treating recurrent, metastatic, and invasive tumors.
Semiconductor neutron irradiation
Neutron-doping technology achieving zero radioactive contamination to enhance the yield rate of domestically produced chips
Neutron irradiation is primarily used in the semiconductor industry for doping silicon single crystals to enhance material properties. Its role is irreplaceable in deep doping, power device optimization, radiation hardening, and other related fields.
Neutron imaging
Solve the challenge of non-destructive testing for critical components and enhance the safety level of major equipment.
Neutron imaging is primarily applied in non-destructive testing for industries with high strategic added value or extremely stringent measurement accuracy requirements. Leveraging the principle that high-atomic-mass materials (such as iron and lead) are easily penetrated by neutrons, it is used for inspections within heavy metal shielding layers.
Environmental Protection
Nuclear Waste Management
Shortening the half-life of nuclear waste to overcome environmental constraints on fission nuclear power development and advance the dual carbon goals.
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