Page 4: Research news on Topological phases of matter

Topological phases of matter constitute a research area in condensed matter physics that studies quantum states distinguished by global, topological properties rather than local order parameters and symmetry breaking. This field investigates phases characterized by topological invariants (e.g., Chern numbers, Z₂ indices), robust edge or surface states, and phenomena such as quantized transport and anyonic excitations. Research focuses on topological insulators, superconductors, and semimetals, the role of symmetries and topology in band structures, and strongly correlated topological phases. It combines methods from quantum field theory, band theory, topology, and numerical many-body techniques, with implications for fault-tolerant quantum computation and novel electronic functionalities.

Using duality to construct and classify new quantum phases

A team of theoretical researchers has found duality can unveil non-invertible symmetry protected topological phases, which can lead to researchers understanding more about the properties of these phases, and uncover new quantum ...

Honeycomb lattice sweetens quantum materials development

Researchers at the Department of Energy's Oak Ridge National Laboratory are pioneering the design and synthesis of quantum materials, which are central to discovery science involving synergies with quantum computation. These ...

New state of matter discovered in a quantum material

At TU Wien, researchers have discovered a state in a quantum material that had previously been considered impossible. The definition of topological states should be generalized.

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