Quantum dynamics in a spin-1/2 square lattice J1-J2-δ altermagnet

Abstract

A key feature of the newly discovered altermagnet is that its spin degeneracy is lifted, although it has an antiferromagnetic order and zero net magnetization. In this work, we investigate a frustrated spin-1/2 J1-J2-δ Heisenberg model on the square lattice by the tensor network methodin combination with the linear spin-wave theory, with our focus on both the magnon excitations and longitudinal excitations.For a small J2 and a finite range of δ we demonstrate that such a model hosts an altermagnetic ground state. Its magnon spectrum is split into two branches and the largest splitting occurs at (π/2, π/2) in the Brillouin zone. The magnitudes of splitting in the two magnon modes are equal with respect to the case of δ=0. Dynamical spin structure factors show that the low-energy peak in the longitudinal spectral weight around (π/2, π/2) is also split, and thus the relative positions of the magnon modes and longitudinal modes in energy may change in the presence of a finite δ. These findings demonstrate that the altermagnets harbor more complex quantum dynamics than the conventional collinear antiferromagnets.

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