Researchers from the Institute of Modern Physics and their collaborators have recently developed a novel high-performance digital detector array for the study of exotic nuclei. This system demonstrates unique advantages in accurately measuring the decay properties of exotic nuclei.
A research team from the Hefei Institutes of Physical Science has developed advanced aerogel composites that integrate high-temperature insulation with mechanical load-bearing capabilities, while also achieving controllable fabrication of large-size samples.
A team of researchers from the Hefei Institutes of Physical Science has unveiled a novel strategy to enhance the performance of ruthenium (Ru) catalysts—offering a cost-effective and efficient alternative to platinum (Pt), which is commonly used in hydrogen oxidation reaction (HOR) catalysts but is expensive and scarce.
A research team led by Professor HUANG Qing from the Hefei Institutes of Physical Science has developed a series of CoNi- metal-organic framework nanozymes with laccase-like activity using a gas-liquid interface dielectric barrier discharge low-temperature plasma technique.
An atomic clock research team from the National Time Service Center has proposed and implemented a compact optical clock based on quantum interference enhanced absorption spectroscopy, which is expected to play an important role in micro-positioning, navigation, timing and other systems.
Researchers from the Institute of Modern Physics have proposed a key indicator that may reveal the emergence of quark-gluon plasma by analyzing particle "fingerprints" generated in heavy-ion collisions.
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