Cornell Group Theses
Cornell Group Theses
2024
T.H. Wright, Stray Fields and The Electron’s Electric Dipole Moment, ÂÌñ»»ÆÞ, 2024.
Ìý
2023
K.B. Ng, The ThF+ EEDM Experiment: Concept, Design, and Characterization, ÂÌñ»»ÆÞ, 2023.
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N.. Schlossberger, An Apparatus for Measuring the Electron’s Electric Dipole Moment in Trapped ThF+, ÂÌñ»»ÆÞ, 2023.
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2022
T.S. Roussy, A New Limit on the electron’s Electric Dipole Moment, University of Colorado, 2022.
Ìý
M.J. Van de Graaff, Implosions As a Probe for Fluctuations in Bose-Einstein Condensates, ÂÌñ»»ÆÞ, 2022.
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2020
X.. Xie, Precise Calibrations of Few-Body Physics in Potassium-39: Experiment and Theory, ÂÌñ»»ÆÞ, 2020.
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D.A. Palken, Enhancing the Scan Rate for Axion Dark Matter: Quantum Noise Evasion and Maximally Informative Analysis, ÂÌñ»»ÆÞ, 2020.
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2019
W.. Cairncross, Searching for Time-Reversal Symmetry Violation With Molecular Ions: Quantum State Control and Photofragment Imaging, ÂÌñ»»ÆÞ, 2019.
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R.. Chapurin, Precise Measurements of Few-Body Physics in Ultracold 39K Bose Gas, ÂÌñ»»ÆÞ, 2019.
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2017
C.E. Klauss, Resonantly Interacting Degenerate Bose Gas Oddities, ÂÌñ»»ÆÞ, 2017.
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R.. Paudel, Probing Local Quantities in a Strongly Interacting Fermi Gas and the Construction of an Ultracold Fermi Gas Apparatus, ÂÌñ»»ÆÞ, 2017.
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2016
M.. Grau, Measuring the Electron Electric Dipole Moment With Trapped Molecular Ions, ÂÌñ»»ÆÞ, 2016.
Ìý
M.-G.. Hu, Bose Polarons and Rotating Gases in an Ultracold Bose-Fermi Gas Mixture of 40K and 87Rb Atoms, ÂÌñ»»ÆÞ, 2016.
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2015
D.S. Lobser, Observation of a Persistent Non-Equilibrium State in an Extremely Isotropic Harmonic Potential, ÂÌñ»»ÆÞ, 2015.
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2014
K.C. Cossel, Techniques in Molecular Spectroscopy: From Broad Bandwidth to High Resolution, ÂÌñ»»ÆÞ, 2014.
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R.S. Bloom, Few-Body Collisions in a Quantum Gas Mixture of 40K and 87Rb Atoms, ÂÌñ»»ÆÞ, 2014.
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P.. Makotyn, Experimental Studies of a Degenerate Unitary Bose Gas, ÂÌñ»»ÆÞ, 2014.
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2013
H.. Loh, Search for an Electron Electric Dipole Moment With Trapped Molecular Ions, ÂÌñ»»ÆÞ, 2013.
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2012
B.K. Stuhl, Ultracold Molecules for the Masses: Evaporative Cooling and Magneto-Optical Trapping, ÂÌñ»»ÆÞ, 2012.
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R.J. Wild, Contact Measurements on a Strongly Interacting Bose Gas, ÂÌñ»»ÆÞ, 2012.
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L.C. Sinclair, Development of Frequency Comb Velocity-Modulation Spectroscopy, Spectroscopy of HfF+ and the JILA EEDM Experiment, ÂÌñ»»ÆÞ, 2012.
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T.D. Cumby, Exploring Few-Body Scattering Resonances in a Bose-Fermi Mixture: From Feshbach Dimers to Efi Mov Trimers, ÂÌñ»»ÆÞ, 2012.
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2010
J.P. Gaebler, Photoemission Spectroscopy of a Strongly Interacting Fermi Gas, ÂÌñ»»ÆÞ, 2010.
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S.. Tung, Probing an Interacting Bose Gas in a Quasi-Two-Dimensional Trap, ÂÌñ»»ÆÞ, 2010.
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J.M. Pino, Strongly Interacting Bose-Einstein Condensates: Probes and Techniques, ÂÌñ»»ÆÞ, 2010.
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R.P. Stutz, Towards Measuring the Electron Electric Dipole Moment Using Trapped Molecular Ions, ÂÌñ»»ÆÞ, 2010.
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2008
V.. Schweikhard, Ultracold Bose Gases under Rotation, in Lattice Potentials, and Both, ÂÌñ»»ÆÞ, 2008.
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2007
J.M. Obrecht, Measurement of the Temperature Dependence of the Casimir-Polder Force, ÂÌñ»»ÆÞ, 2007.
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2005
Y.-J.. Wang, An On-Chip Atom Interferometer Using a Bose-Einstein Condensate, ÂÌñ»»ÆÞ, 2005.
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2004
I.. Coddington, Vortices in a Highly Rotating Bose Condensed Gas, ÂÌñ»»ÆÞ, 2004.
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2003
P.C. Haljan, Vortices in a Bose-Einstein Condensate, ÂÌñ»»ÆÞ, 2003.
Ìý
2002
H.J. Lewandowski, Coherences and Correlations in an Ultracold Bose Gas, ÂÌñ»»ÆÞ, 2002.
Ìý
2000
Toward Integrated Atom-Interferometry: Guides, a Beamsplitter and a Switch
D.. Müller, Toward Integrated Atom-Interferometry: Guides, a Beamsplitter and a Switch, ÂÌñ»»ÆÞ, 2000.
Ìý
1999
M.R. Matthews, Two-Component Bose-Einstein Condensation, ÂÌñ»»ÆÞ, 1999.
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1998
J.R. Ensher, The First Experiments With Bose-Einstein Condensation of 87Rb, ÂÌñ»»ÆÞ, 1998.