Add to ORKGWe show that the macroscopic magnetic and electronic properties of strongly correlated electron systems can be manipulated by coupling them to a cavity mode. As a paradigmatic example we consider the Fermi-Hubbard model and find that the electron-cavity coupling enhances the magnetic interaction between the electron spins in the ground-state manifold. At half filling this effect can be observed by a change in the magnetic susceptibility. At less than half filling, the cavity introduces a next-nearest-neighbor hopping and mediates a long-range electron-electron interaction between distant sites. We study the ground-state properties with tensor network methods and find that the cavity coupling can induce a phase characterized by a momentum-sp...
This thesis presents the first cavity quantum electrodynamics experiments performed with a degenerat...
The recent experimental observation of spinor self-ordering of ultracold atoms in optical resonators...
Laser control of solids was so far mainly discussed in the context of strong classical nonlinear lig...
We show that strong electron-electron interactions in quantum materials can give rise to electronic ...
An important goal of modern condensed-matter physics involves the search for states of matter with e...
Quantum spin liquid states are realized in systems with frustrated magnetic interactions. Here, the ...
Strong quantum correlations in matter are responsible for some of the most extraordinary properties ...
The light-matter interaction can be utilized to qualitatively alter physical properties of materials...
The light-matter interaction can be utilized to qualitatively alter physical properties of materials...
Controlling the states of quantum systems is a subject of major interest for both fundamental scienc...
International audienceWe discuss the problem of gauge fixing for strongly correlated electrons coupl...
International audienceWe discuss the problem of gauge fixing for strongly correlated electrons coupl...
Quantum spin liquids provide paradigmatic examples of highly entangled quantum states of matter. Fru...
Quantum spin liquids provide paradigmatic examples of highly entangled quantum states of matter. Fru...
The recent experimental observation of spinor self-ordering of ultracold atoms in optical resonators...
This thesis presents the first cavity quantum electrodynamics experiments performed with a degenerat...
The recent experimental observation of spinor self-ordering of ultracold atoms in optical resonators...
Laser control of solids was so far mainly discussed in the context of strong classical nonlinear lig...
We show that strong electron-electron interactions in quantum materials can give rise to electronic ...
An important goal of modern condensed-matter physics involves the search for states of matter with e...
Quantum spin liquid states are realized in systems with frustrated magnetic interactions. Here, the ...
Strong quantum correlations in matter are responsible for some of the most extraordinary properties ...
The light-matter interaction can be utilized to qualitatively alter physical properties of materials...
The light-matter interaction can be utilized to qualitatively alter physical properties of materials...
Controlling the states of quantum systems is a subject of major interest for both fundamental scienc...
International audienceWe discuss the problem of gauge fixing for strongly correlated electrons coupl...
International audienceWe discuss the problem of gauge fixing for strongly correlated electrons coupl...
Quantum spin liquids provide paradigmatic examples of highly entangled quantum states of matter. Fru...
Quantum spin liquids provide paradigmatic examples of highly entangled quantum states of matter. Fru...
The recent experimental observation of spinor self-ordering of ultracold atoms in optical resonators...
This thesis presents the first cavity quantum electrodynamics experiments performed with a degenerat...
The recent experimental observation of spinor self-ordering of ultracold atoms in optical resonators...
Laser control of solids was so far mainly discussed in the context of strong classical nonlinear lig...