Add to ORKGThis work details the design, construction, and use of an apparatus which cools atomic strontium to quantum degeneracy. Degeneracy is a baseline condition necessary for experiments in quantum emulation and quantum gas microscopy. The apparatus is used for the creation and study of an atomic spin-momentum lattice, a step along the way towards the ultracold-atom realization of fractional quantum Hall states
Imaging and manipulating individual atoms with submicrometer separation can be instrumental for quan...
Experimental realization of a quantum degenerate gas of molecules would provide access to a wide ran...
Quantum-gas microscopy has proven to be a valuable tool for the field of quantum simulation. It prov...
This work details the design, construction, and use of an apparatus which cools atomic strontium to ...
We describe the construction and characterization of a new apparatus that can produce degenerate qua...
The thesis describes the design and construction of a new versatile strontium quantum gas machine wi...
This thesis describes the Strontium Continuous Atom Laser (SrCAL) machine that we built and the many...
This thesis describes the methods used to achieve single-atom and single-site resolved fluorescence ...
This thesis reports the construction of a novel apparatus for experiments with ul-tracold atoms in o...
A study was conducted on the fiftyfold improvement in the number of quantum degenerate Fermionic ato...
In recent years, the unprecedented experimental control of the laws of quantum mechanics has led to ...
We study the physics of a rapidly rotating gas of ultracold atomic bosons, with an internal degree o...
An evaporative cooling strategy that uses a two-component Fermi gas was employed to cool a magnetica...
We describe the operation and performance of an ultracold strontium apparatus that is capable of gen...
In recent years, ultra-cold atomic gases have emerged as a novel platform for the study of quantum m...
Imaging and manipulating individual atoms with submicrometer separation can be instrumental for quan...
Experimental realization of a quantum degenerate gas of molecules would provide access to a wide ran...
Quantum-gas microscopy has proven to be a valuable tool for the field of quantum simulation. It prov...
This work details the design, construction, and use of an apparatus which cools atomic strontium to ...
We describe the construction and characterization of a new apparatus that can produce degenerate qua...
The thesis describes the design and construction of a new versatile strontium quantum gas machine wi...
This thesis describes the Strontium Continuous Atom Laser (SrCAL) machine that we built and the many...
This thesis describes the methods used to achieve single-atom and single-site resolved fluorescence ...
This thesis reports the construction of a novel apparatus for experiments with ul-tracold atoms in o...
A study was conducted on the fiftyfold improvement in the number of quantum degenerate Fermionic ato...
In recent years, the unprecedented experimental control of the laws of quantum mechanics has led to ...
We study the physics of a rapidly rotating gas of ultracold atomic bosons, with an internal degree o...
An evaporative cooling strategy that uses a two-component Fermi gas was employed to cool a magnetica...
We describe the operation and performance of an ultracold strontium apparatus that is capable of gen...
In recent years, ultra-cold atomic gases have emerged as a novel platform for the study of quantum m...
Imaging and manipulating individual atoms with submicrometer separation can be instrumental for quan...
Experimental realization of a quantum degenerate gas of molecules would provide access to a wide ran...
Quantum-gas microscopy has proven to be a valuable tool for the field of quantum simulation. It prov...
