Possible stripe phases in the multiple magnetization plateaus in TbB4 derived from single-crystal neutron diffraction under pulsed high magnetic fields

Abstract

We present a single-crystal neutron diffraction study on the Shastry-Sutherland lattice system TbB4 at zero magnetic field and under pulsed high magnetic fields up to 35 T applied along the crystallographic c axis. While our results confirm the magnetic structures at zero-field as well as those at the half- and full-magnetization plateaus, they offer new insight into the 29- and 13-magnetization plateaus observed in this system. A stripe model of polarized 4-spin-plaquettes whose stripe density proportionally increases with the macroscopic magnetization is in full agreement with the neutron diffraction data. Equally well suited alternative models exist which explain the observed Bragg peaks which are inherently limited in a pulsed high magnetic field experiment. We discuss the different intensity distribution in Q space which can be used to distinguish these models in future experiments.