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2.
Environments of strong gravitational lenses
by Momcheva, Ivelina Gospodinova, Ph.D.  The University of Arizona. 2009: 317 pages; 3350066.
3.
Tests of early universe physics from observational astronomy
by Mack, Katherine J., Ph.D.  Princeton University. 2009: 120 pages; 3374784.
4.
Lights All Askew: Systematics in Galaxy Images from Megaparsecs to Microns
by Bradshaw, Andrew Kenneth, Ph.D.  University of California, Davis. 2017: 80 pages; 10640482.
5.
The Universe Under a Magnifying Glass: Measuring and Predicting Large-scale Structure Statistics
by Morrison, Christopher Brian, Ph.D.  University of California, Davis. 2013: 94 pages; 3602168.
6.
Constraining Dark Matter Through the Study of Merging Galaxy Clusters
by Dawson, William Anthony, Ph.D.  University of California, Davis. 2013: 144 pages; 3602041.
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A magnified view of high redshift star formation
by Wuyts, Eva, Ph.D.  The University of Chicago. 2012: 149 pages; 3526999.
9.
Methods in Computational Cosmology
by Vakili, Mohammadjavad, Ph.D.  New York University. 2017: 235 pages; 10260795.
10.
Bright z ~ 3 Lyman break galaxies in deep wide field surveys
by Bian, Fuyan, Ph.D.  The University of Arizona. 2013: 204 pages; 3561569.
11.
Measurement of the B-mode power spectrum with POLARBEAR
by Steinbach, Bryan, Ph.D.  University of California, Berkeley. 2014: 104 pages; 3686020.
12.
Quasar Structure from Microlensing in Gravitationally Lensed Quasars
by Morgan, Christopher Warren, Ph.D.  The Ohio State University. 2008: 165 pages; 10631194.
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Particle dark matter in the solar system
by Peter, Annika H. G., Ph.D.  Princeton University. 2008: 295 pages; 3305294.
16.
Distinguishing signal from noise: New techniques for gravitational wave data analysis
by Baker, Paul Thomas, Ph.D.  Montana State University. 2013: 201 pages; 3596422.
17.
Studying cosmological sources of gravitational waves
by Corbin, Vincent Dominique Andre, Ph.D.  Montana State University. 2010: 133 pages; 3426413.
18.
The POLARBEAR Experiment: Design and Characterization
by Kermish, Zigmund David, Ph.D.  University of California, Berkeley. 2012: 161 pages; 3527140.
19.
Constraining massive black hole population models with gravitational wave observations
by Plowman, Joseph Eugene, Ph.D.  Montana State University. 2010: 131 pages; 3408960.
20.
Optical cluster-finding with an adaptive matched-filter technique
by Dong, Feng, Ph.D.  Princeton University. 2011: 178 pages; 3452629.
21.
Gravitational mass attraction measurement for drag-free references
by Swank, Aaron J., Ph.D.  Stanford University. 2009: 257 pages; 3364514.
22.
A General Approach to the Direct Detection of Dark Matter
by Gaudet, Chase J., M.S.  University of Louisiana at Lafayette. 2013: 84 pages; 1553881.
24.
Bound orbits and virialized systems in a dark energy universe
by Lackeos, Kristen, Ph.D.  The University of Alabama in Huntsville. 2014: 104 pages; 3682684.
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Galaxy evolution insights from spectral modeling of large data sets from the Sloan Digital Sky Survey
by Hoversten, Erik Andrew, Ph.D.  The Johns Hopkins University. 2008: 347 pages; 3288603.
27.
Evolution of X-ray Properties of Galaxy Groups
by Pascut, Aurelia, Ph.D.  University of Birmingham (United Kingdom). 2013: 256 pages; 10591255.
28.
Computing Gravitational Wave Frequencies of Neutron Stars
by Lanoye, Michael, M.S.  California State University, Long Beach. 2019: 52 pages; 13899315.
29.
Placing Limits on Experimental Signatures of Dark Matter Model Predictions
by Sharma, Arjun, Ph.D.  The University of Chicago. 2018: 44 pages; 10807985.
30.
Future Networks of Gravitational Wave Detectors: Quantum Noise and Space Detectors
by Kuns, Kevin A., Ph.D.  University of California, Santa Barbara. 2019: 158 pages; 13810824.
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