Add to ORKGStrongly-correlated electron systems generate some of the richest phenomena and most challenging theoretical problems studied in physics. One approach to understanding these systems is with ultracold fermionic atoms in optical lattices, which can provide a level of control and ways of observing strongly-correlated fermionic systems that are not accessible with conventional materials. This thesis describes the development of an experimental technique where a quantum gas of fermionic 6Li atoms is prepared in a two-dimensional optical lattice and each atom can be frozen in place and imaged with single-site resolution. Combining a vacuum-compatible large numerical aperture microscope with Raman sideband cooling enables site-resolved fluorescenc...
The reliable detection of single quantum particles has revolutionized the field of quantum optics an...
I present experiments with ultracold atoms which demonstrate a novel avenue to study strongly correl...
Ultracold atoms in optical lattices have great potential to contribute to a better understanding of ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2017.Cataloged from PD...
We realize a quantum-gas microscope for fermionic ⁴⁰K atoms trapped in an optical lattice, which all...
The Hubbard model contains only the essential ingredients to describe the behavior of strongly inter...
Recent advances in using microscopes in ultracold atom experiment have allowed experimenters for the...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2018.Cataloged from PD...
Single-atom-resolved detection in optical lattices using quantum-gas microscopes has enabled a new g...
This thesis describes the methods used to achieve single-atom and single-site resolved fluorescence ...
An outstanding problem in physics is how to understand strongly interacting quantum many-body system...
The focus of this thesis is the trapping, cooling and imaging of fermionic potassium atoms in optica...
We use 40K atoms trapped in a cubic optical lattice to simulate the Fermi-Hubbard model. The work in...
Correlation functions play an important role for the theoretical and experimental characterization o...
International audienceA method is proposed to directly measure the temperature of a gas of weakly in...
The reliable detection of single quantum particles has revolutionized the field of quantum optics an...
I present experiments with ultracold atoms which demonstrate a novel avenue to study strongly correl...
Ultracold atoms in optical lattices have great potential to contribute to a better understanding of ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2017.Cataloged from PD...
We realize a quantum-gas microscope for fermionic ⁴⁰K atoms trapped in an optical lattice, which all...
The Hubbard model contains only the essential ingredients to describe the behavior of strongly inter...
Recent advances in using microscopes in ultracold atom experiment have allowed experimenters for the...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2018.Cataloged from PD...
Single-atom-resolved detection in optical lattices using quantum-gas microscopes has enabled a new g...
This thesis describes the methods used to achieve single-atom and single-site resolved fluorescence ...
An outstanding problem in physics is how to understand strongly interacting quantum many-body system...
The focus of this thesis is the trapping, cooling and imaging of fermionic potassium atoms in optica...
We use 40K atoms trapped in a cubic optical lattice to simulate the Fermi-Hubbard model. The work in...
Correlation functions play an important role for the theoretical and experimental characterization o...
International audienceA method is proposed to directly measure the temperature of a gas of weakly in...
The reliable detection of single quantum particles has revolutionized the field of quantum optics an...
I present experiments with ultracold atoms which demonstrate a novel avenue to study strongly correl...
Ultracold atoms in optical lattices have great potential to contribute to a better understanding of ...