Clemens Ulm
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View article: Synchronization in rotating supersolids
Synchronization in rotating supersolids Open
Synchronization is a widespread phenomenon in natural and engineered systems, governing the emergence of collective dynamics in different domains including biology and classical and quantum physics. In quantum many-body systems, synchroniz…
View article: Synchronization in rotating supersolids
Synchronization in rotating supersolids Open
Synchronization is ubiquitous in nature at various scales and fields. This phenomenon not only offers a window into the intrinsic harmony of complex systems, but also serves as a robust probe for many-body quantum systems. One such system …
View article: Observation of vortices in a dipolar supersolid
Observation of vortices in a dipolar supersolid Open
Supersolids are states of matter that spontaneously break two continuous symmetries: translational invariance due to the appearance of a crystal structure and phase invariance due to phase locking of single-particle wave functions, respons…
View article: Commensurate and incommensurate 1D interacting quantum systems
Commensurate and incommensurate 1D interacting quantum systems Open
Single-atom imaging resolution of many-body quantum systems in optical lattices is routinely achieved with quantum-gas microscopes. Key to their great versatility as quantum simulators is the ability to use engineered light potentials at t…
View article: A comparative study of deconvolution techniques for quantum-gas microscope images
A comparative study of deconvolution techniques for quantum-gas microscope images Open
Quantum-gas microscopes are used to study ultracold atoms in optical lattices at the single-particle level. In these systems atoms are localised on lattice sites with separations close to or below the diffraction limit. To determine the la…
View article: Commensurate and incommensurate 1D interacting quantum systems
Commensurate and incommensurate 1D interacting quantum systems Open
Single-atom imaging resolution of many-body quantum systems in optical lattices is routinely achieved with quantum-gas microscopes. Key to their great versatility as quantum simulators is the ability to use engineered light potentials at t…
View article: A comparative study of deconvolution techniques for quantum-gas microscope images
A comparative study of deconvolution techniques for quantum-gas microscope images Open
Quantum-gas microscopes are used to study ultracold atoms in optical lattices at the single particle level. In these system atoms are localised on lattice sites with separations close to or below the diffraction limit. To determine the lat…