Quantum Oscillation Signatures of Z2 Monopole Charge in Nodal-Ring Semimetals

Abstract

Topological semimetals host band nodes characterized by quantized invariants that can appear in bulk responses, yet some invariants remain hidden from standard probes. In particular, band nodes can carry secondary topological charges whose transport signatures are still largely unexplored. Here we study three-dimensional nodal-line semimetals in which nodal rings carry both the Berry phase w1π and a Z2 monopole charge w2. We show that magnetic quantum oscillations, usually treated as a probe of w1, can directly diagnose w2, with the relevant signal selected by the magnetic-field direction. For a field along the ring axis, the inner and outer extremal orbits of the toroidal Fermi surface both encircle the w2-enforced thread and exhibit a topological phase shift νw2π in the νth harmonic, which is accessible through standard phase-resolved quantum-oscillation analysis. By contrast, for a field applied perpendicular to the ring axis, the relevant extremal orbit exhibits the usual π phase shift associated with the Berry phase w1π, independent of w2. For weak doping, three-dimensional ABC-stacked graphdiyne is predicted to exhibit the proposed oscillations in a field range accessible with present-day high-field facilities.

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