Jul 25, 2017
Physicists from Dresden demonstrate elusive quantum effect
In the latest issue of the magazine „Nature“, an international team of scientists including Dr. Tobias Meng from the Institute of Theoretical Physics of the TU Dresden reports on the observation of a long sought-after quantum effect. Despite having been discussed since the 1970s, the effect of the name of „axial-gravitational quantum anomaly“ has only now been demonstrated for the first time.
Thus far, it was believed that this effect could only be measured in extreme conditions, for instance in neutron stars. This precluded its observation in the past. In an experiment performed at the IBM research center in Zürich, however, the scientists have now succeeded in establishing evidence for the axial-gravitational quantum anomaly in a metal composed of the chemical elements niobium and phosphor. Tobias Meng, who has only recently been selected for the prestigious Emmy Noether programme by the Deutsche Forschungsgemeinschaft, played a vital role in interpreting the experimental data.
„With the experiment we could show that the energy of Weyl particles, named after the physicist Hermann Weyl, does not follow the same laws as for regular particles“, Tobias Meng asserts. The work thus closes a gap between the theoretical understanding that physicists have of Weyl particles, and the prior experimental results. This is also of interest beyond the fundamental science community: Weyl particles conduct current especially well, and could thus speed up future computers. „To render such improvements in everyday life possible, it is crucial for us to really understand the properties of Weyl particles. I am happy that our work makes an important contribution to that effort,“ says Tobias Meng.
Original Publication: J. Gooth, A. C. Niemann, T. Meng, A. G. Grushin, K. Landsteiner, B. Gotsmann, F. Menges, M. Schmidt, C. Shekhar, V. Süß, R. Hühne, B. Rellinghaus, C. Felser, B. Yan, K. Nielsch: „Experimental signatures of the mixed axial-gravitational anomaly in the Weyl semimetal NbP“ Nature 547, 324 (2017)