Add to ORKGTopological transports of fermions are governed by the Chern numbers of the energy bands lying below the Fermi energy. For bosons, e.g. phonons and magnons in a crystal, topological transport is dominated by the Chern number of the lowest energy band when the band gap is comparable to the thermal energy. Here, we demonstrate the presence of topological transport by bosonic magnons in a lattice of magnetic skyrmions - topological defects formed by a vortex-like texture of spins. We find a distinct thermal Hall signal in the magnetic skyrmion phase of an insulating polar magnet GaV4Se8, identified as the topological thermal Hall effect of magnons governed by the Chern number of the lowest energy band of the magnons in a triangular lattice of ...
The importance of topology in condensed matter physics has expanded in recent years as it has become...
The importance of topology in condensed matter physics has expanded in recent years as it has become...
At sufficiently low temperatures magnetic materials often enter a correlated phase hosting collectiv...
Thermal transport in topologically-ordered phases of matter provides valuable insights as it can det...
Extending the notion of symmetry protected topological phases to insulating antiferromagnets (AFs) d...
As the spin excitation quanta in magnetic materials, the magnon is at the heart of the spintronics r...
The thermal Hall effect, defined as a heat current response transversal to an applied temperature gr...
As the spin excitation quanta in magnetic materials, the magnon is at the heart of the spintronics r...
Condensed matter systems admit topological collective excitations above a trivial ground state, an e...
As the spin excitation quanta in magnetic materials, the magnon is at the heart of the spintronics r...
As the spin excitation quanta in magnetic materials, the magnon is at the heart of the spintronics r...
As the spin excitation quanta in magnetic materials, the magnon is at the heart of the spintronics r...
We demonstrate theoretically that the thermal Hall effect of magnons in collinear antiferromagnetic ...
Topological order is important in many aspects of condensed matter physics, and has been extended to...
The importance of topology in condensed matter physics has expanded in recent years as it has become...
The importance of topology in condensed matter physics has expanded in recent years as it has become...
The importance of topology in condensed matter physics has expanded in recent years as it has become...
At sufficiently low temperatures magnetic materials often enter a correlated phase hosting collectiv...
Thermal transport in topologically-ordered phases of matter provides valuable insights as it can det...
Extending the notion of symmetry protected topological phases to insulating antiferromagnets (AFs) d...
As the spin excitation quanta in magnetic materials, the magnon is at the heart of the spintronics r...
The thermal Hall effect, defined as a heat current response transversal to an applied temperature gr...
As the spin excitation quanta in magnetic materials, the magnon is at the heart of the spintronics r...
Condensed matter systems admit topological collective excitations above a trivial ground state, an e...
As the spin excitation quanta in magnetic materials, the magnon is at the heart of the spintronics r...
As the spin excitation quanta in magnetic materials, the magnon is at the heart of the spintronics r...
As the spin excitation quanta in magnetic materials, the magnon is at the heart of the spintronics r...
We demonstrate theoretically that the thermal Hall effect of magnons in collinear antiferromagnetic ...
Topological order is important in many aspects of condensed matter physics, and has been extended to...
The importance of topology in condensed matter physics has expanded in recent years as it has become...
The importance of topology in condensed matter physics has expanded in recent years as it has become...
The importance of topology in condensed matter physics has expanded in recent years as it has become...
At sufficiently low temperatures magnetic materials often enter a correlated phase hosting collectiv...