Add to ORKGThe quantum geometric properties of a Bloch state in momentum space are usually described by the Berry curvature and quantum metric. In realistic gapped materials where interactions and disorder render the Bloch state not a viable starting point, we generalize these concepts by introducing dressed Berry curvature and quantum metric at finite temperature, in which the effect of many-body interactions can be included perturbatively. These quantities are extracted from the charge polarization susceptibility caused by linearly or circularly polarized electric fields, whose spectral functions can be measured from momentum-resolved exciton or infrared absorption rate. As a concrete example, we investigate Chern insulators in the presence of impur...
We write the curvature of spacetime in terms of the excitation probability of particle detectors ult...
Funding Information: We acknowledge discussions with J. W. McIver. G.T. and P.T. acknowledge support...
As a new quantum state, topological insulators have become the focus of condensed matter and materia...
The Berry curvature (BC) - a quantity encoding the geometric properties of the electronic wavefuncti...
In the tight-binding description of electronic, photonic, or cold atomic dynamics in a periodic latt...
Dirac cones lie at the heart of many interests in studying two-dimensional crystals such as graphene...
Two representations of mixed states by state-vectors, known as purified state and thermal vacuum, ha...
We study electronic transport in Weyl semimetals with spatially varying nodal tilt profiles. We find...
International audienceThe geometry of Hamiltonian’s eigenstates is encoded in the quantum geometric ...
In this thesis, research starts by questioning Berry curvature dipole's role in electronic propertie...
In 1964 Kohn published the milestone paper “Theory of the insulating state”, according to which insu...
We theoretically investigate how the Berry curvature, which arises in multi-band structures when the...
When a quantum field theory is trivially gapped, its infrared fixed point is an invertible field the...
Two-dimensional van der Waals heterostructures can be engineered into artificial superlattices that ...
Berry phase and Berry curvature have become ubiquitous concepts in physics, relevant to a variety of...
We write the curvature of spacetime in terms of the excitation probability of particle detectors ult...
Funding Information: We acknowledge discussions with J. W. McIver. G.T. and P.T. acknowledge support...
As a new quantum state, topological insulators have become the focus of condensed matter and materia...
The Berry curvature (BC) - a quantity encoding the geometric properties of the electronic wavefuncti...
In the tight-binding description of electronic, photonic, or cold atomic dynamics in a periodic latt...
Dirac cones lie at the heart of many interests in studying two-dimensional crystals such as graphene...
Two representations of mixed states by state-vectors, known as purified state and thermal vacuum, ha...
We study electronic transport in Weyl semimetals with spatially varying nodal tilt profiles. We find...
International audienceThe geometry of Hamiltonian’s eigenstates is encoded in the quantum geometric ...
In this thesis, research starts by questioning Berry curvature dipole's role in electronic propertie...
In 1964 Kohn published the milestone paper “Theory of the insulating state”, according to which insu...
We theoretically investigate how the Berry curvature, which arises in multi-band structures when the...
When a quantum field theory is trivially gapped, its infrared fixed point is an invertible field the...
Two-dimensional van der Waals heterostructures can be engineered into artificial superlattices that ...
Berry phase and Berry curvature have become ubiquitous concepts in physics, relevant to a variety of...
We write the curvature of spacetime in terms of the excitation probability of particle detectors ult...
Funding Information: We acknowledge discussions with J. W. McIver. G.T. and P.T. acknowledge support...
As a new quantum state, topological insulators have become the focus of condensed matter and materia...