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1–5 Sep 2017
China National Convention Center
Asia/Shanghai timezone

Hyperfine spectroscopy of (anti)hydrogen for tests of CPT and Lorentz invariance

3 Sep 2017, 14:00
25m
302A (China National Convention Center)

302A

China National Convention Center

No.7 Tianchen East Road, Chaoyang District, Beijing 100105 China
9) Tests of symmetries and conservation laws Tests of symmetries and conservation laws

Speaker

Eberhard WIDMANN (Stefan Meyer Institute for subatomic Physics)

Description

The ground-state hyperfine structure (GS-HFS) of hydrogen is known from the hydrogen maser to relative precision of 10–12. It is of great interest to measure the same quantity for its antimatter counterpart, antihydrogen, to test the fundamental CPT symmetry, which states that all particles and antiparticles have exactly equal or exactly opposite properties. Since CPT is strictly conserved in the Standard Model of particle physics, a violation, if found, would point directly to theories behind this framework. The application of the maser technique requires the confinement of the atoms in a matter box for 1000 seconds and is currently not applicable to antihydrogen. Therefore, the ASACUSA collaboration at the Antiproton Decelerator of CERN has built a Rabi-type beam spectroscopy setup for a measurement of GS-HFS. With the initial aim of characterizing the setup devised to measure the GS-HFS and to evaluate its potential, a beam of cold, polarized, monoatomic hydrogen was built and used together with the microwave cavity and sextupole magnet designed for the antihydrogen experiment. The (F,M)=(1,0) to (0,0) transition was measured to a precision of several ppb [1], more than a factor 10 better than in the previous measurement using a hydrogen beam. This result shows that the apparatus developed is capable of making a precise measurement of the GS-HFS of antihydrogen provided a beam of similar characteristics (velocity, polarization, quantum state) becomes available. In a recent publication on the non-minimal Standard Model Extension (SME), describing possible violations of Lorentz and CPT invariance, Kostelecky and Vargas [2] conclude that the in-beam hyperfine measurements of hydrogen alone can be used to constrain certain coefficients of their model, which have never been measured before. The status and prospects of in-beam measurements of hydrogen and antihydrogen will be presented. [1] M. Diermaier et al., arxiv : 1610.06392 [2] V.A. Kostelecky and A.J. Vargas, Physical Review D 92, 056002 (2015).

Summary

This talk describes the status of an experiment by the ASACUSA collaboration at the Antiproton Decelerator of CERN to measure the hyperfine structure of antihydrogen as a test of CPT. Further progress of using the same apparatus for hydrogen and its prospect for testinf Lorentz invariance are decribed.

Presentation materials