This book provides a model description for the electromagnetic response of topological nodal semimetals and summarizes recent experimental findings in these systems. Specifically, it discusses various types of topological semimetals – Dirac, Weyl, nodal-line, triple-point, and multifold semimetals – and provides description for the characteristic features of the linear electrodynamic response for all these types of materials.
Topological semimetals possess peculiar bulk electronic band structure, which leads to unusual electrodynamic response. For example, the...
This book provides a model description for the electromagnetic response of topological nodal semimetals and summarizes recent experimental findings in...
This book provides a model description for the electromagnetic response of topological nodal semimetals and summarizes recent experimental findings in these systems. Specifically, it discusses various types of topological semimetals – Dirac, Weyl, nodal-line, triple-point, and multifold semimetals – and provides description for the characteristic features of the linear electrodynamic response for all these types of materials.
Topological semimetals possess peculiar bulk electronic band structure, which leads to unusual electrodynamic response. For example, the...
This book provides a model description for the electromagnetic response of topological nodal semimetals and summarizes recent experimental findings in...
This book focuses on nanoscale electronic phase separation in a wide class of different materials, especially in strongly correlated electron systems. It features an extensive review of the field of inhomogeneous spin and charge states in condensed matter physics while delivering a topical and timely discussion of a wide range of recent advances in electronic phase separation. It describes the formation of different types of nanoscale ferromagnetic metallic droplets in antiferromagnetically ordered, charge-ordered, or orbitally-ordered insulating matrices, as well as the colossal...
This book focuses on nanoscale electronic phase separation in a wide class of different materials, especially in strongly correlated electron systems....
This book highlights a comprehensive and self-contained account of the physics of Rydberg atoms and their integration within the broader framework of cavity quantum electrodynamics (QED) and hybrid quantum systems. Rydberg atoms in cavities constitute a uniquely powerful and versatile platform for exploring strongly interacting quantum systems, where the combination of exaggerated atomic properties and engineered light matter coupling enables access to physical regimes that are otherwise unattainable. With their exceptionally large electric dipole moments, long radiative lifetimes, and...
This book highlights a comprehensive and self-contained account of the physics of Rydberg atoms and their integration within the broader framework ...
