Scientists from the university's College of Science have created and measured the properties of antihydrogen for the first time. Using super-cooling techniques, they reduced particles' energy ...

The basic technology is there. Physicists armed with the world's most powerful particle accelerators have made antiprotons ...

and saw the ALPHA-g experiment that was set up to test gravity’s effect on antihydrogen. Team member Jeffrey Hangst told us what’s next for antimatter research. Receive a weekly dose of ...

Anyway, every particle has an antiparticle, and these should be able to group together to form larger antiatoms of familiar elements – antihydrogen and antihelium have been produced, but ...

This would then produce antihydrogen and antihelium—and an experiment called the Alpha Magnetic Spectrometer aboard the International Space Station is looking out for it. If we did observe ...

The antihypernucleus contains a strange quark, making it a heavier cousin of antihydrogen-4. Physicists hope that studying such antimatter particles could shed light on why there is much more matter ...

In a paper published today in Nature, the ALPHA collaboration at CERN’s Antimatter Factory, which includes academics from The University of Manchester, shows that within the precision of their ...

Einstein’s theory of relativity is still being studied, applied and proven in a multitude of ways today. For instance, the Antihydrogen Laser Physics Apparatus (ALPHA) project, based at CERN, ...

Ilario Boscolo, who was one of the proponents of the AEgIS experiment at CERN, passed away on 16 April 2024 at the age of 84.

the deceleration and cooling of the positrons for subsequent formation and trapping of cold antihydrogen or positronium atoms. But still, ultra-strong lasers (in particular when table-top in size ...

Kuri antimatter, imiterere y’ingufu z’amashanyarazi yo ni ikinyuranyo kuri matter. Dufate antihydrogen, ariyo ‘version’ ya hydrogen kuri antimatter, ari nayo kandi yakoreshejwe na Cern mu ...