📝 SummarXiv

Abstract

Motivated by recent experimental observations of possible spin supersolid states in triangular lattice compounds, we study the dynamical properties of various ground states in the spin-1/2 easy-axis antiferromagnetic Heisenberg model with impurities under magnetic fields, using numerical Density Matrix Renormalization Group methods. For both spin supersolid states in the low and high fields, the gapless Goldstone mode at the $K$ points remains robust with impurities, which is related to the presence of spin superfluidity. As a comparison, we find a splitting of magnon band at the same impurity density level in the conventional magnetic state, the so-called up-up-down state. In addition, the finite superfluid stiffness probed by the twisted phase in the spin supersolid states is consistent with the excitation spectrum. We argue that this excitation spectrum with impurity provides direct evidence of the dissipationless dynamics in the spin supersolid states, which could be tested in neutron scattering experiments.