Authors
M Amoretti, Claude Amsler, G Bonomi, A Bouchta, P Bowe, C Carraro, CL Cesar, M Charlton, MJT Collier, Michael Doser, V Filippini, KS Fine, A Fontana, MC Fujiwara, R Funakoshi, P Genova, JS Hangst, RS Hayano, MH Holzscheiter, LV Jørgensen, V Lagomarsino, Rolf Landua, D Lindelöf, E Lodi Rizzini, M Macrì, N Madsen, G Manuzio, M Marchesotti, P Montagna, H Pruys, C Regenfus, P Riedler, J Rochet, A Rotondi, G Rouleau, G Testera, A Variola, TL Watson, DP Van Der Werf
Publication date
2002/9/18
Journal
Nature
Volume
419
Issue
6906
Pages
456-459
Publisher
Nature Publishing Group
Description
A theoretical underpinning of the standard model of fundamental particles and interactions is CPT invariance, which requires that the laws of physics be invariant under the combined discrete operations of charge conjugation, parity and time reversal. Antimatter, the existence of which was predicted by Dirac, can be used to test the CPT theorem—experimental investigations involving comparisons of particles with antiparticles are numerous. Cold atoms and anti-atoms, such as hydrogen and antihydrogen, could form the basis of a new precise test, as CPT invariance implies that they must have the same spectrum. Observations of antihydrogen in small quantities and at high energies have been reported at the European Organization for Nuclear Research (CERN) and at Fermilab, but these experiments were not suited to precision comparison measurements. Here we demonstrate the production of antihydrogen …
Total citations
Scholar articles
MEA Amoretti, C Amsler, G Bonomi, A Bouchta, P Bowe… - Nature, 2002
M Amoretti, C Amsler, G Bonomi, A Bouchta, P Bowe… - Nature, 2002