Classical symmetry enriched topological orders and distinct monopole charges for dipole-octupole spin ices

Distinct symmetry enriched topological orders often do not have classical distinctions. Motivated by the recent process on the pyrochlore spin ice materials based on the dipole-octupole doublets, we argue that dipolar spin liquid and octupolar spin liquid can be well differentiated through the magnetic charges of the magnetic monopoles in the classical spin ice regime. It is observed and predicted that, the long-range dipole-dipole interaction renders the magnetic monopole of the dipolar spin ice a finite magnetic charge via the dumbbell picture even in the classical regime. For the octupolar spin ice, however, a zero magnetic charge is expected from this mechanism in the classical regime. We expect this smoking-gun observation to resolve the debate on the nature of Ce$_2$Sn$_2$O$_7$, and more broadly, this work may inspire further experiments and thoughts on the Ce-pyrochlore spin liquids, Nd-pyrochlore antiferromagnets, Er-based spinels, and the distinct properties of the emergent quasiparticles in various symmetry enriched topological phases.