Thompson Group Theses
Thompson Group Theses
2025
D.. Young, Exploring Out-of-Equilibrium Quantum Simulation in a Many-Atom Strontium Cavity QED Platform, University of Colorado, Boulder, 2025.
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2024
C.. Luo, Twisting, Binding, and Probing Matter Waves in a Rubidium Cavity QED System, ÂÌñ»»ÆÞ, 2024.
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2021
J.R.K. Cline, Continuous Collective Strong Coupling Between Atoms and a High Finesse Cavity on a Forbidden Optical Transition, ÂÌñ»»ÆÞ, 2021.
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G.P. Greve, Entanglement-Enhanced Matter-Wave Interferometry, ÂÌñ»»ÆÞ, 2021.
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B.. Wu, Homogeneous Atom-Cavity Coupling for Quantum Metrology, ÂÌñ»»ÆÞ, 2021.
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2017
M.. Norcia, New Tools for Precision Measurement and Quantum Science With Narrow Linewidth Optical Transitions, ÂÌñ»»ÆÞ, 2017.
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2016
K.C. Cox, Quantum-Enhanced Measurements With Atoms in Cavities: Superradiance and Spin Squeezing, ÂÌñ»»ÆÞ, 2016.
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2015
J.M. Weiner, Synchronization and Sensing With Steady State Superradiance and Spin Squeezing, ÂÌñ»»ÆÞ, 2015.
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2014
J.G. Bohnet, A Superradiant Laser and Spin Squeezed States: Collective Phenomena in a Rubidium Cavity QED System for Enhancing Precision Measurements, ÂÌñ»»ÆÞ, 2014.
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2013
Z.. Chen, Breaking Quantum Limits With Collective Cavity-QED: Generation of Spin Squeezed States via Quantum Non-Demolition Measurements, ÂÌñ»»ÆÞ, 2013.
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