Classical and quantum phases of the pyrochlore S=1/2 magnet with Heisenberg and Dzyaloshinskii-Moriya interactions

Abstract

We investigate the ground state and critical temperature phase diagrams of the classical and quantum S=1/2 pyrochlore lattice with nearest-neighbor Heisenberg and Dzyaloshinskii-Moriya interactions (DMI). We consider ferromagnetic and antiferromagnetic Heisenberg exchange as well as direct and indirect DMI. Classically, three ground states are found: all-in/all-out, ferromagnetic and a locally ordered XY phase, known as 5, which displays an accidental classical U(1) degeneracy. Quantum zero-point energy fluctuations are found to lift the classical ground state degeneracy and select the 3 state in most parts of the 5 regime. Likewise, thermal fluctuations treated classically, select the 3 state at T=0+. In contrast, classical Monte Carlo finds that the system orders at Tc in the 2 state of 5 for antiferromagnetic Heisenberg exchange and indirect DMI with a transition from 2 to 3 at a temperature T_5 <Tc. The same method finds that the system orders via a single transition at Tc directly into the 3 state for most of the region with ferromagnetic Heisenberg exchange and indirect DMI. Such ordering behavior at Tc for the S=1/2 quantum model is corroborated by high-temperature series expansion. To investigate the T=0 quantum ground states, we apply the pseudo-fermion functional renormalization group (PFFRG). The quantum paramagnetic phase of the pure antiferromagnetic S=1/2 Heisenberg model is found to persist over a finite region in the phase diagram for both direct or indirect DMI. We find that near the boundary of ferromagnetism and 5 antiferromagnetism the system may potentially realize a quantum ground state lacking conventional magnetic order. Otherwise, for the largest portion of the phase diagram, PFFRG finds the same ordered phases as in the classical model.

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