A new technique in detector fabrication could change high-energy physics forever. By using additive manufacturing, ...

An international collaboration has shown that additive manufacturing offers a realistic way to build large-scale plastic scintillator detectors for particle physics experiments.

The ability to detect high-energy protons with SNSPDs has never been reported before, and this breakthrough widens the scope of particle detection applications.

Installation of the network began in 2015. The KM3NeT made the record-breaking detection on February 13, 2023, when the particle lit up one of its two detectors. ARCA, or the Astroparticle ...

This particle moves faster than the speed of light in water, creating a faint flash of Cherenkov radiation. The detector’s array of optical sensors capture these flashes, allowing researchers to ...

Calculated changes of the magnetic field create areas on the chessboard that remain untouched by particle transport and thus become "invisible." The cloaked areas alter the motion only while the ...

Superconducting nanowire photon detectors (SNSPDs), traditionally used for photon detection, have been adapted to detect high-energy protons, marking a significant advancement in particle detection.