Due to its unique nuclear properties, beryllium stands out as one of the candidate materials
for the first wall and neutron multiplier in nuclear fusion reactors. This article provides an …

A model for studying displacement damage in irradiated HfO2 ferroelectric thin films was
developed using deep learning and a repulsive table, combining the accuracy of density …

The advent of high-temperature superconductors (HTS) with high field strengths offers the
possibility of building smaller, cheaper magnetically confined fusion reactors. However …

Nb is considered a promising candidate as a refractory element due to its high-temperature
endurance, excellent thermal conductivity, and compatibility with liquid-metallic coolants in …

We performed a systematic study of the threshold displacement energy (E d) in metallic
uranium as a function of both the recoil direction and temperature using Molecular Dynamics …

A B-based thin-film neutron monitor is developed for the in situ neutron beam monitoring of
the Korea Atomic Energy Research Institute neutron depth profiling system. Thin-film …

Threshold displacement energies (Ed) of carbon and tungsten in tungsten carbide (WC),
W2C, tungsten and diamond are predicted using molecular dynamics. The spatial …

Displacement damage in beryllium was predicted as a function of temperature and energy
using molecular dynamics simulations. A key aim of this study was to determine if average …

The helium effects in Chinese developed CN-G01 beryllium are important issues for its use
in nuclear energy systems. In this work, the CN-G01 beryllium samples were irradiated with …

Tantalum is a plasma-facing material possessing superior thermal and mechanical strength,
high melting point, chemically resistant refractory element and efficiently arrests radiation …