• Symmetry Breaking, Order-by-Disorder, Fragmentation, and Spin-Liquids in the Magnetic Pyrochlore Lattice with Anisotropic Interactions 

  Lozano Gomez, Daniel (University of Waterloo, 2023-01-26)

  Within the study of frustrated magnetism, the pyrochlore lattice is deemed a fruitful ground where phenomena such as quantum and thermal order-by-disorder, moment fragmentation, and spin-liquids, both quantum and classical, ...

• Analysis of the Thermal Fisher Information in 2+1 Dimensional Black Hole Spacetimes 

  Patterson, Everett Avison (University of Waterloo, 2023-01-24)

  In the past decade, relativistic quantum information (RQI) has presented itself as a promising avenue for examining the interaction between relativistic and quantum effects. This is most commonly achieved by coupling ...

• Re-visiting the Radio-Mechanical Feedback in Brightest Cluster Galaxies 

  Tamhane, Prathamesh (University of Waterloo, 2023-01-23)

  The self-regulated feedback from the Active Galactic Nucleus (AGN) plays a key role in the formation and evolution of galaxies by heating and expelling gas in galaxies. The goal of this thesis is to investigate the role ...

• Electronic Transport Properties in Single-layer CVD graphene 

  Sakuragi, Mai (University of Waterloo, 2023-01-23)

  Graphene is a two-dimensional material of carbon atoms possessing a metallic nature and the low-energy quasiparticles behave as massless Dirac fermions. The unique electronic properties of graphene inspire many researches ...

• Superconducting Proximity Effect in Nanowire Josephson Junctions 

  Gharavi, Kaveh (University of Waterloo, 2023-01-13)

  Semiconducting nanowires contacted with superconductors are an interesting class of hybrid mesoscopic devices, in which charge transport is quantum mechanical due to the confinement potential of the nanowire, as well as ...

• Thickness- and Symmetry-Induced Electronic Transport Properties of Semimetallic Transition Metal Dichalcogenides 

  Zhong, Shazhou (University of Waterloo, 2023-01-12)

  This thesis presents experimental study of how thickness and symmetry would impact the electron transport properties of MoTe₂ and WTe₂, two members of the transition metal dichalcogenide family. In the first experiment, ...

• New Aspects of Quantum Interactions: Acceleration-Induced Transparency, Newton’s Cradle Spectra, Superoscillations 

  Šoda, Barbara (University of Waterloo, 2023-01-12)

  We present new results on different aspects of quantum interactions, from new phenomena to new mathematical tools. First, two new phenomena of light-matter interactions are presented: the stimulated Unruh effect and ...

• Efficient Characterization of a Unitary Quantum Gate via a Projective Rabi Experiment 

  Chytros, Anthony (University of Waterloo, 2023-01-09)

  In this thesis, we introduce a novel randomization-based protocol for estimation of parameters in a sparse Hamiltonian. This is achieved via a projective Rabi experiment which interleaves projective channels between ...

• Toward Ultracold Atoms for Quantum Thermalization Studies 

  Hussein, Omar (University of Waterloo, 2023-01-02)

  Ultracold atoms are a great platform to understand one of the most interesting open problems in physics: quantum thermalization. Building a new lab for ultracold atoms is a challenging task for the various tools that ...

• Ultra-Cold CsLi Molecules as a Platform for Quantum Information Processing 

  Hinkle, Zachary (University of Waterloo, 2022-12-19)

  Despite their proposal 40 years ago, quantum computers are still in their infancy, with a panoply of various systems demonstrated as potential methods of quantum information processing. Rydberg atoms are a leading platform, ...

• Symmetries in Black Hole Spacetimes 

  Gray, Finnian Padraig Stott (University of Waterloo, 2022-11-30)

  This thesis covers the role of explicit and hidden symmetries in some selected topics on the properties and excitations of black hole spacetimes. To this end, the symmetries of classical physics in Lorentzian manifolds are ...

• Coherent interactions and thermometry in a trapped ion quantum simulator 

  Vogliano, Anthony (University of Waterloo, 2022-10-27)

  Quantum simulators are useful tools to study exotic systems which may be otherwise intractable for a traditional computer. In particular, the trapped-ion platform has been a leading candidate for use in quantum simulation ...

• Evaluation and Comparison of Two Novel Non-Platinum-Based Antitumor Agents on Pancreatic Cancer and Triple-Negative Breast Cancer 

  Xu, Xiangxuan (University of Waterloo, 2022-10-03)

  Cancer is one of the leading causes threatening human life. People suffering from pancreatic cancer and triple-negative breast cancer (TNBC) have particularly low survival rate among all cancer types. The novel non-platinum ...

• Twisted Holography: The Examples of 4d and 5d Chern-Simons Theories 

  Zhou, Yehao (University of Waterloo, 2022-09-29)

  Twisted holography is a duality between a twisted supergravity, and a twisted supersymmetric gauge theory living on the D-branes in the supergravity. The main objectives of this duality is the comparison between the algebra ...

• Simulating Many-Body States of Light and Matter with Tensor Networks 

  Taylor, Jacob (University of Waterloo, 2022-09-29)

  When Feynman originally proposed the concept of a quantum computer, his purpose was to perform quantum simulation of complex materials. It is thus a key requirement that quantum resources can emulate physical processes ...

• Hodge Theory for Geometrically Frustrated Magnetism 

  Chung, Kristian (University of Waterloo, 2022-09-29)

  We present an analytical formalism based on the concept of discrete differential forms and Hodge theory as a framework for understanding geometrically frustrated magnetism. The primary insight is to treat spins as a 1-form ...

• Beyond General Relativity: New Structure and Stability Predictions from Modified Gravity and High-Density Interaction Models 

  Gammon, Michael (University of Waterloo, 2022-09-29)

  In this thesis a number of topics are explored in an attempt to further understand gravitation and highly dense matter on a fundamental level. The notion of “quark stars” (QS), hypothetical compact stars composed of quark ...

• Collective Spin-Cavity Ensembles and the Protection of Higher-dimensional Quantum Information 

  Gunderman, Lane (University of Waterloo, 2022-09-28)

  The development of devices leveraging their quantum nature to outperform classical analogues has been an ongoing effort for many decades now. In this thesis we investigate two facets related to this effort, albeit at ...

• Powell Lens-based Line-Scan Spectral Domain Optical Coherence Tomography for Cellular Resolution Imaging of Biological Tissues 

  Song, Weixiang (University of Waterloo, 2022-09-28)

  A line-scan spectral-domain optical coherence tomography system was developed for corneal imaging. It utilizes a Powell lens to achieve a better line illumination power distribution than the conventional use of cylindrical ...

• Edge Modes and Carrollian Hydrodynamics on Stretched Horizons 

  Jai-akson, Puttarak (University of Waterloo, 2022-09-27)

  The first part of this thesis is aimed at investigating the crucial role played by emergent boundary degrees of freedom, called edge modes, in gauge theories defined in spacetimes with boundaries. We propose a simple and ...

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