Litcius/Paper detail

Precision spectroscopy of the hyperfine components of the 1S–2S transition in antihydrogen

C. J. Baker, W. Bertsche, A. Capra, C. Carruth, C. L. Cesar, M. Charlton, A. Christensen, R. Collister, A. Cridland Mathad, S. Eriksson, A. Evans, N. Evetts, J. Fajans, T. Friesen, M. C. Fujiwara, D. R. Gill, P. Grandemange, P. Granum, J. S. Hangst, W. N. Hardy, M. E. Hayden, D. Hodgkinson, E. D. Hunter, C. A. Isaac, M. A. Johnson, J. M. Jones, Stephen A. Jones, S. Jonsell, Alexander Khramov, L. Kurchaninov, N. Madsen, D. Maxwell, J. T. K. McKenna, S. Menary, Takamasa Momose, P. S. Mullan, J. J. Munich, K. Olchanski, Å. Olin, J. Peszka, A.D. Powell., P. Pusa, C. Ø. Rasmussen, F. Robicheaux, R. L. Sacramento, M. Sameed, E. Sarid, D. M. Silveira, C. So, G. Stutter, T. D. Tharp, R. I. Thompson, D. P. van der Werf, J. S. Wurtele, G.M. Shore

2025Nature Physics14 citationsDOIOpen Access PDF

Abstract

The antimatter equivalent of atomic hydrogen—antihydrogen—is an outstanding testbed for precision studies of matter–antimatter symmetry. Here we report on the simultaneous observation of both accessible hyperfine components of the 1S–2S transition in trapped antihydrogen. We determine the 2S hyperfine splitting in antihydrogen and—by comparing our results with those obtained in hydrogen—constrain the charge–parity–time-reversal symmetry-violating coefficients in the standard model extension framework. Our experimental protocol allows the characterization of the relevant spectral lines in 1 day, representing a 70-fold improvement in the data-taking rate. We show that the spectroscopy is applicable to laser-cooled antihydrogen with important implications for future tests of fundamental symmetries. The ALPHA Collaboration reports measurements of the hyperfine components of the 1S–2S transition in trapped antihydrogen. They interpret the results as a test of the invariance of charge–parity–time-reversal symmetry.

Topics & Concepts

AntihydrogenPhysicsHyperfine structureSpectroscopyAtomic physicsNuclear physicsCondensed matter physicsQuantum mechanicsAntimatterElectronPositronAtomic and Subatomic Physics ResearchAtomic and Molecular PhysicsQuantum, superfluid, helium dynamics