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Physicists have recreated the mechanism behind cosmic ray acceleration in a lab for the first time using ultracold atoms and a device no bigger than a human hair. Scientists have achieved a major brea ...
The European Commission is to invest EUR202 million (USD236 million) in the IFMIF-DONES particle accelerator located in ...
Researchers have found the first new type of magnet in nearly a century. Now, these strange "altermagnets" could help us ...
The European Union (EU) will invest €202m ($236m) in the International Fusion Materials Irradiation Facility – DEMO-Oriented ...
Nanoparticles—the tiniest building blocks of our world—are constantly in motion, bouncing, shifting, and drifting in ...
The Maxwell–Boltzmann distribution describes the probability distribution of molecular speeds in a sample of an ideal gas.
Researchers in Japan have accelerated muons into the most precise, high-intensity beam to date, reaching energies high as 100 keV. The achievement could enable next-generation experiments such as ...
This paper introduces a +/-25 kV switch simulation model constructed with 3.3 kV SiC MOSFETs arranged in an antiserial configuration. Comprising 20 stages, each stage incorporates two identical SiC ...
This progress means that, for the first time, complicated astrophysical events like shocks and turbulence can be studied in a ...
Scientists have observed the mechanism responsible for generating cosmic rays in a laboratory for the first time – a significant milestone in astrophysics.
Park Doing left Dayton at 18 to pursue an electrical engineering degree at Cornell University. He stayed for his Master’s, then returned in his thirties for a Ph.D. in philosophy.
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