• The Role of Melatonin in Amyloid Interactions with the Model Neuronal Membranes 

  Mei, Nanqin (University of Waterloo, 2023-11-29)

  The amyloid cascade hypothesis has long directed research efforts in understanding the pathogenesis of Alzheimer’s disease (AD), ever since it was first proposed through clinical evidence by Hardy and Higgins in 1992. ...

• Neutron Scattering Investigations of Three-Dimensional Topological States 

  Henderson, Melissa (University of Waterloo, 2023-11-13)

  Topological magnets represent a unique class of quantum materials in which a nontrivial Berry curvature in real- or momentum-space couples to the magnetic properties of the topological electronic or spin system. Magnetic ...

• Techniques for Improving Numerical Secret Key Rates of Quantum Key Distribution Protocols 

  Johnstun, Scott (University of Waterloo, 2023-10-24)

  Quantum Key Distribution (QKD) is a method for producing secure keys between two parties whose security does not rely on computational assumptions potentially breakable by quantum computers. However, physical constraints, ...

• Towards Pulsed Telecom Laser Ablation Loading for an Ytterbium Ion Trap 

  Zhu, Jingwen (Monica) (University of Waterloo, 2023-10-23)

  Trapped ion system is a promising platform for quantum computing, with long qubit coherence, high gate and measurement fidelities. To harness the full potential of the trapped ion system, it is imperative to employ an ...

• The Evolution of Subhalo Orbits in Galaxy Clusters 

  de Luna, Jedri (University of Waterloo, 2023-10-23)

  Galaxies and their dark matter structures are commonly found within larger-scale structures called galaxy clusters. These clusters exhibit unique conditions to their constituent galaxies, as they have an elevated density ...

• Modeling and managing noise in quantum error correction 

  Beale, Stefanie (University of Waterloo, 2023-10-19)

  Simulating a quantum system to full accuracy is very costly and often impossible as we do not know the exact dynamics of a given system. In particular, the dynamics of measurement noise are not well understood. For this ...

• An estimation theoretic approach to quantum realizability problems 

  Fraser, Thomas (University of Waterloo, 2023-09-27)

  This thesis seeks to develop a general method for solving so-called quantum realizability problems, which are questions of the following form: under which conditions does there exist a quantum state exhibiting a given ...

• Cats, Rotating Waves and Photons: An Excursion into Light-Matter Interaction 

  Ayyash, Mohammad (University of Waterloo, 2023-09-27)

  This thesis hopes to achieve two modest goals. The primary goal is to formulate a practical theory for generating cat states by employing a resonant or detuned strong drive on a qubit coupled to a resonator. An incidental ...

• Programmable Individual Addressing and Floquet Hamiltonian Dynamics in a Trapped Ion Quantum Processor 

  Shih, Chung-You (University of Waterloo, 2023-09-26)

  Trapped ions have been gaining traction as a platform for quantum information processing (QIP) in both academia and industry over the last decade. Their long coherence time, high fidelity gate operations, and built-in ...

• Double-pulse Model for the Study of Red-shifted Spectrum in Multi-frequency Raman Generation 

  Jin, Zhiyu (University of Waterloo, 2023-09-25)

  Multi-frequency Raman Generation (MRG) is a promising technique for generating few-femtosecond to sub-femtosecond pulses with high energy conversion efficiency. During transient MRG experiments coupled with two chirped ...

• Developing a Large-Scale, Programmable Trapped Ion Quantum Simulator with In Situ Mid-Circuit Measurement and Reset 

  Motlakunta, Sainath (University of Waterloo, 2023-09-25)

  Quantum simulators are a valuable resource for studying complex many-body systems. With their ability to provide near-term advantages, analog quantum simulators show great promise. In this thesis, my aim is to describe the ...

• Closed-loop control system and hardware-aware compilation protocols for quantum simulation with neutral atoms in optical trap arrays 

  Padia, Parth (University of Waterloo, 2023-09-25)

  Quantum materials offer tremendous potential for advancing electronic devices beyond traditional semiconductor-based technologies. Understanding the dynamics of these materials requires the use of quantum simulators. Quantum ...

• Black hole dynamics in Effective Field Theory extensions to General Relativity 

  Cayuso, Ramiro (University of Waterloo, 2023-09-22)

  This thesis aims to develop and implement mathematical and numerical techniques to enable the study of deviations from General Relativity (GR) in the nonlinear regime. The focus is on studying the nonlinear dynamics of ...

• The Effects of Uniform Acceleration on the Correlation Harvesting 

  Naeem, Manar (University of Waterloo, 2023-09-22)

  Quantum field theory (QFT) in curved spacetime focuses on the analysis of quantum fields—representing fundamental particles and their interactions—within a curved spacetime geometry, accounting for relativistic effects. Among ...

• Spin-Spin Correlations in the CuAlCr₄S₈ Breathing Pyrochlore 

  Aharony, Itamar (University of Waterloo, 2023-09-21)

  Frustrated magnetic systems, whose behaviour is influenced by competing interactions between magnetic spins, have been an active area of research. There is a special class of materials called breathing pyrochlores, whose ...

• Optimizing Small-scale Redshift Space Distortion Measurements in eBOSS for Cosmological Inference 

  Chapman, Michael (University of Waterloo, 2023-09-21)

  Modern cosmological datasets have grown substantially in size and the precision of their measurements. While the improvement has had a beneficial impact on our understanding of the cosmological model, it requires equal ...

• Design and Implementation of the Real-Time Control System for an Open Trapped Ion Quantum Computing Platform 

  Epstein, Collin Joseph Cunningham (University of Waterloo, 2023-09-08)

  Trapped atomic ions are a promising platform for the implementation of quantum bits and quantum information processors due to advantageous inherent physical properties as well as exquisite experimental control. Trapped ion ...

• Measuring Quantum Correlations of Polarization, Spatial Mode, and Energy-Time Entangled Photon Pairs. 

  Cameron, Andrew (University of Waterloo, 2023-09-07)

  Optical quantum technologies have found applications in all facets of quantum information. Single photons are actively being researched for quantum computation, communication, and sensing, due to their robustness against ...

• Control and Readout of High-Dimensional Trapped Ion Qudits 

  Low, Pei Jiang (University of Waterloo, 2023-09-07)

  The trapped ion platform is one of the quantum computing platforms that is at the forefront for realizing large-scale quantum information processing, which is crucial for practically actualizing the advantages of quantum ...

• Placing Limits on Light Axions with EHT Polarimetry via Closure Traces 

  Wang, Zhiren (University of Waterloo, 2023-08-31)

  Black holes can amplify incoming bosonic waves via rotational superradiance, inducing bound states of ultralight bosons around them. This phenomenon has the potential to confine the parameter spaces of new bosons. Axions, ...

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