
Physicists observe competition between magnetic orders
The system: A crystal lattice made of light traps atoms in several bilayer sheets.Tomographic images show the (spin-) densities in a single layer. They provide
The system: A crystal lattice made of light traps atoms in several bilayer sheets.Tomographic images show the (spin-) densities in a single layer. They provide
by The Henryk Niewodniczanski Institute of Nuclear Physics Polish Academy of Sciences Deformation landscape of the nickel-64 nucleus. Prolate, oblate local minima and main spherical
Figure showing the cross-sectional view of various multiple-cell (double-, quadruple-, and octuple-cell) cavities with the expected distribution of the axion-induced electric field by the resonant
Professor Reinhard Dörner (left) and Dr Maksim Kunitzki in front of the COLTRIMS reaction microscope at Goethe University, which was used to observe the quantum
Alexey Grinin and Dery Taray are working on the vacuum system of the 1S-3S experiment. Credit: Max Planck Society Physicists at the Max Planck Institute
Typical magnetic field variations as mapped by the trolley at different positions in the Muon g-2 experiment’s storage ring, shown at the parts-per-million level. Credit: