FePS3 is a layered van der Waals (vdW) Ising antiferromagnet that has recently been
studied in the context of true 2D magnetism and emerged as an ideal material platform for …

We study magnon-polaron hybrid states, mediated by Dzyaloshinskii-Moriya and
magnetoelastic interactions, in a two-dimensional ferromagnetic insulator. The magnetic …

Topology plays a crucial and multifaceted role in solid state physics, leading to a remarkable
array of newly investigated materials and phenomena. In this Perspective, we provide a brief …

The capability of magnons to hybridize and strongly couple with diverse excitations offers a
promising avenue for realizing and controlling emergent properties that hold significant …

Spin-phonon coupling underlies a number of diverse range of phenomena of recent interest,
particularly in transition metal insulators with strong spin-orbit effects, where it may give rise …

We apply a recently developed first-principles based approach for treating generic spin-
phonon couplings in materials with strong spin-orbit coupling to study $\alpha $-RuCl $ _3 …

Cobalt titanate, CoTiO 3, is a honeycomb antiferromagnet recently confirmed experimentally
to host Dirac magnons, topological spin-orbit excitons, and chiral phonons. Here, we …

The two-dimensional van der Waals (vdW) materials M PS 3 (M= Mn, Fe, Co, Ni) display
antiferromagnetic ordering of the magnetic moments at the transition metal ions. The …

The stacking of intrinsically magnetic van der Waals materials provides a fertile platform to
explore tunable transport effects of magnons, presenting significant prospects for spintronic …

We introduce a quantum mechanical formalism for computing the electric polarization
arising in two-dimensional (2D) antiferromagnets (AFMs) as a result of {\bf both} spin and …