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1.
Magnesium diboride superconducting devices and circuits
by Galan, Elias, Ph.D.  Temple University. 2015: 119 pages; 3745867.
2.
Controlling coherent state superpositions with superconducting circuits
by Vlastakis, Brian Michael, Ph.D.  Yale University. 2015: 241 pages; 10013061.
3.
Improving Coherence of Superconducting Qubits and Resonators
by Geerlings, Kurtis Lee, Ph.D.  Yale University. 2013: 256 pages; 3578344.
4.
Nonlinear optics quantum computation and quantum simulation with circuit-QED
by Adhikari, Prabin, Ph.D.  University of Maryland, College Park. 2014: 160 pages; 3682634.
5.
Quantum Trajectories of a Superconducting Qubit
by Weber, Steven Joseph, Ph.D.  University of California, Berkeley. 2014: 147 pages; 3686046.
6.
Superconducting Cavities for Circuit Quantum Electrodynamics
by Reagor, Matthew James, Ph.D.  Yale University. 2016: 222 pages; 10160874.
7.
Magnesium Diboride Devices and Applications
by Melbourne, Thomas, Ph.D.  Temple University. 2018: 141 pages; 10689307.
8.
Micromachined quantum circuits
by Brecht, Teresa Lynn, Ph.D.  Yale University. 2017: 259 pages; 10783438.
9.
Transmon qubits coupled to superconducting lumped element resonators
by Suri, Baladitya, Ph.D.  University of Maryland, College Park. 2015: 347 pages; 3711371.
10.
Flying Qubit Operations in Superconducting Circuits
by Narla, Anirudh, Ph.D.  Yale University. 2017: 231 pages; 10783459.
11.
Studies of decoherence in rf SQUID qubits
by Bennett, Douglas A., Ph.D.  State University of New York at Stony Brook. 2008: 126 pages; 3337622.
12.
Quantum transport and field-induced superconductivity in carbon nanotubes
by Yang, Yanfei, Ph.D.  Georgetown University. 2010: 162 pages; 3397434.
13.
Cavity State Reservoir Engineering in Circuit Quantum Electrodynamics
by Holland, Eric T., Ph.D.  Yale University. 2015: 201 pages; 10012490.
14.
Nano-SQUID susceptometry and fluctuation effects in superconducting rings
by Koshnick, Nicholas C., Ph.D.  Stanford University. 2009: 102 pages; 3351494.
15.
Studies of quantum transitions of magnetic flux in a rf SQUID qubit
by Longobardi, Luigi, Ph.D.  State University of New York at Stony Brook. 2009: 126 pages; 3401716.
16.
Microwave cavity lattices for quantum simulation with photons
by Underwood, Devin Lane, Ph.D.  Princeton University. 2015: 182 pages; 3686679.
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18.
Hybrid Terahertz Metamaterials: From Perfect Absorption to Superconducting Plasmonics
by Schalch, Jacob, Ph.D.  University of California, San Diego. 2018: 256 pages; 10980156.
19.
Topological Quantum Computing with Majorana Zero Modes and Beyond
by Knapp, Christina Paulsen, Ph.D.  University of California, Santa Barbara. 2019: 434 pages; 13896677.
20.
Induced Superconductivity in Two Dimensional Electron Gas System
by Wan, Zhong, Ph.D.  Purdue University. 2018: 99 pages; 10830652.
21.
Measurements of Secondary Cosmic Microwave Background Anisotropies with the South Pole Telescope
by Lueker, Martin, Ph.D.  University of California, Berkeley. 2010: 191 pages; 3444814.
23.
Testing the Quantum-Classical Boundary and Dimensionality of Quantum Systems
by Shun, Poh Hou, Ph.D.  National University of Singapore (Singapore). 2015: 132 pages; 10006070.
24.
Atomtronics: Quantum technology with cold atoms in ring shaped optical lattices
by Aghamalyan, Davit, Ph.D.  National University of Singapore (Singapore). 2015: 196 pages; 10005993.
25.
Scalable Quantum Light Sources in Silicon Photonic Circuits
by Gentry, Cale Michael, Ph.D.  University of Colorado at Boulder. 2018: 168 pages; 10791965.
26.
Theoretical analysis of prospective nanoelectronic devices
by Walls, Thomas John, Ph.D.  State University of New York at Stony Brook. 2008: 230 pages; 3406710.
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28.
At the intersection of quantum computing and quantum chemistry
by Whitfield, James Daniel, Ph.D.  Harvard University. 2011: 220 pages; 3491961.
29.
Spin-phonon Interactions with Defects in Silicon Carbide
by Whiteley, Samuel James, Ph.D.  The University of Chicago. 2019: 197 pages; 13856187.
30.
Improving the Readout of Semiconducting Qubits
by Curry, Matthew Jon, Ph.D.  The University of New Mexico. 2019: 195 pages; 13857960.
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