Theses
Displaying 1 - 11 of 11
2021
Continuous Collective Strong Coupling Between Atoms and a High Finesse Cavity on a Forbidden Optical Transition
Cline J.R.K., Continuous Collective Strong Coupling Between Atoms And A High Finesse Cavity On A Forbidden Optical Transition, University of Colorado Boulder, 2021.
Entanglement-Enhanced Matter-Wave Interferometry
Greve G.P., Entanglement-Enhanced Matter-Wave Interferometry, University of Colorado Boulder, 2021.
Quantum Acoustics with Multimode Surface Acoustic Wave Cavities
Sletten L.R., Quantum Acoustics With Multimode Surface Acoustic Wave Cavities, University of Colorado Boulder, 2021.
2017
A Fermi-degenerate three-dimensional optical lattice clock
Campbell S.L., A Fermi-Degenerate Three-Dimensional Optical Lattice Clock, University of Colorado Boulder, 2017.
2016
Quantum-Enhanced Measurements with Atoms in Cavities: Superradiance and Spin Squeezing
Cox K.C., Quantum-Enhanced Measurements With Atoms In Cavities: Superradiance And Spin Squeezing, University of Colorado Boulder, 2016.
Theory of Steady-State Superradiance
Xu M., Theory Of Steady-State Superradiance, University of Colorado Boulder, 2016.
2015
Synchronization and Sensing with Steady State Superradiance and Spin Squeezing
Weiner J.M., Synchronization And Sensing With Steady State Superradiance And Spin Squeezing, University of Colorado Boulder, 2015.
Generating and verifying entangled-itinerant microwave fields
Ku H.S., Generating And Verifying Entangled-Itinerant Microwave Fields, University of Colorado Boulder, 2015.
2014
Building a Better Atomic Clock
Bloom B.J., Building A Better Atomic Clock, University of Colorado Boulder, 2014.
A Superradiant Laser and Spin Squeezed States: Collective Phenomena in a Rubidium Cavity QED System for Enhancing Precision Measurements
Bohnet J.G., A Superradiant Laser And Spin Squeezed States: Collective Phenomena In A Rubidium Cavity Qed System For Enhancing Precision Measurements, University of Colorado Boulder, 2014.
2012
A Compact and Transportable Ultracold Matter System and Progress Towards a Continuously Operating Neutral Rydberg Atom Quantum Computer
Hudek K.M., A Compact And Transportable Ultracold Matter System And Progress Towards A Continuously Operating Neutral Rydberg Atom Quantum Computer, University of Colorado Boulder, 2012.