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.
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Entanglement-Enhanced Matter-Wave Interferometry
Greve G.P., Entanglement-Enhanced Matter-Wave Interferometry, University of Colorado Boulder, 2021.
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Quantum Acoustics with Multimode Surface Acoustic Wave Cavities
Sletten L.R., Quantum Acoustics With Multimode Surface Acoustic Wave Cavities, University of Colorado Boulder, 2021.
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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.
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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.
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Theory of Steady-State Superradiance
Xu M., Theory Of Steady-State Superradiance, University of Colorado Boulder, 2016.
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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.
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Generating and verifying entangled-itinerant microwave fields
Ku H.S., Generating And Verifying Entangled-Itinerant Microwave Fields, University of Colorado Boulder, 2015.
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2014

Building a Better Atomic Clock
Bloom B.J., Building A Better Atomic Clock, University of Colorado Boulder, 2014.
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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.
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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.
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