Local control and mixed dimensions: Exploring high-temperature superconductivity in optical lattices
arXiv (2024)
The simulation of high-temperature superconducting materials by implementing strongly correlated fermionic models in optical lattices …
Optical superlattice for engineering Hubbard couplings in quantum simulation
arXiv (2024)
Quantum simulations of Hubbard models with ultracold atoms rely on the exceptional control of coherent motion provided by optical …
Ultracold field-linked tetratomic molecules
Nature 626, 283–287 (2024)
Ultracold polyatomic molecules offer opportunities1 in cold chemistry2,3, precision measurements4 and quantum information …
Formation of stripes in a mixed-dimensional cold-atom Fermi-Hubbard system
arXiv (2023)
The relation between d-wave superconductivity and stripes is fundamental to the understanding of ordered phases in cuprates. While …
Universal equation of state for wave turbulence in a quantum gas
Nature 620, 521–524 (2023)
Boyle’s 1662 observation that the volume of a gas is, at constant temperature, inversely proportional to pressure, offered a …
Field-linked resonances of polar molecules
Nature 614, 59–63 (2023)
Magnetically mediated hole pairing in fermionic ladders of ultracold atoms
Nature 613, 463–467 (2023)
Conventional superconductivity emerges from pairing of charge carriers—electrons or holes—mediated by phonons1. In many unconventional …
Quantifying hole-motion-induced frustration in doped antiferromagnets by Hamiltonian reconstruction
Communications Materials 4, 64 (2023)
First and Second Sound in a Compressible 3D Bose Fluid
Physical Review Letters 128, 223601 (2022)
Realizing the symmetry-protected Haldane phase in Fermi–Hubbard ladders
Nature 606, 484–488 (2022)
Topology in quantum many-body systems has profoundly changed our understanding of quantum phases of matter. The model that has played …