Researchers at CERN have created and trapped antihydrogen in an attempt to study the underpinnings of the standard model of physics. Antihydrogen is made of antiparticles, specifically an antiproton ...

WEST LAFAYETTE, Ind. — The international collaborators of the ALPHA-2 experiment have measured the charge of antihydrogen to be zero with the greatest precision yet, narrowing the possibilities of ...

Physicists at CERN have found the value of the Lamb shift in antihydrogen closely agrees with the value in hydrogen This reaffirms a fundamental symmetry of nature Yet it can't tell us why we and the ...

The first spectroscopy measurements of an atom of antimatter have been made by an international team of physicists working on the ALPHA experiment at CERN. The work is an important step towards ...

The ALPHA collaboration at CERN reports an important milestone on the way to measuring the properties of antimatter atoms. This follows news reported in June last year that the collaboration had ...

Scientists working on the big bang machine in Geneva have done the seemingly impossible: create, capture and release antimatter. The development could help researchers devise laboratory experiments to ...

Physicists working at the European Organization for Nuclear Research (CERN) in Geneva, Switzerland, have succeeded in trapping antihydrogen – the antimatter equivalent of the hydrogen atom – a ...

Scientists at CERN have pushed antimatter production into a new era, creating tens of thousands of antihydrogen atoms is no longer a decade-long dream but a routine overnight feat. In a paper ...

The antimatter version of the hydrogen atom - antihydrogen - could soon finally give up its secrets. Scientists expect that antihydrogen will have exactly the same properties as hydrogen; but after 80 ...

Physicists working at the European Organization for Nuclear Research (CERN) in Geneva, Switzerland, have succeeded in trapping antihydrogen – the antimatter equivalent of the hydrogen atom – a ...