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  Rigorous Security Proofs for Practical Quantum Key Distribution

  (University of Waterloo, 2026-04-08) Tupkary, Devashish Jayant

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  This thesis is concerned with the rigorous security analysis of practical Quantum Key Distribution (QKD) protocols, using a variety of modern proof techniques. Throughout, the emphasis is on mathematical rigor across a wide range of security proof frameworks. We begin by presenting a security proof for variable-length QKD protocols against IID collective attacks, which represents the first such result for generic QKD protocols. We then show that this analysis can be lifted to hold against coherent attacks by an adversary, using the postselection technique. In doing so, we extend the application of the postselection technique to practical QKD protocols, and resolve a long-standing flaw in the method, thereby placing its application to QKD on a rigorous mathematical footing. We next study security proofs based on entropic uncertainty relations. These proofs proceed by bounding the so-called ``phase error rate", using the observed statistics available in the actual protocol. All known methods of bounding the phase error rate require strong assumptions on hardware: namely, that all detectors have exactly equal probability of detection. This renders these security analysis inapplicable to practical QKD scenarios. We show that such phase error rates can be bounded even when detectors are imperfect and only approximately characterized. This resolves a long-standing well-known open problem of nearly two decades, and renders this proof technique applicable to realistic scenarios. We then study security proofs using the recently obtained marginal-constrained entropy accumulation theorem, and obtain a highly rigorous and general result for the security analysis for practical QKD protocols. Most importantly, the proof is constructed in a transparent and self-contained manner, and is designed to be a key ingredient in certification efforts for QKD. Moreover, it can be easily modified to apply to other protocols of interest, and to device imperfections and side-channels. We also revisit the assumptions on authentication traditionally made in QKD security analyses, which assume that all classical messages are delivered faithfully and on time, without any aborts. We show that these assumptions are generally unrealistic, and that adopting realistic authentication assumptions necessitates a modification of both the standard QKD security definition and the corresponding security analysis. However, under mild and easily satisfied protocol design conditions, security under realistic authentication can be reduced to the usual idealized setting. As a result, existing QKD security proofs can be lifted to the realistic authentication setting with only a minor protocol modification. A distinctive feature of this thesis is its unified presentation of multiple major QKD security proof frameworks using consistent protocol descriptions and notation. This first-of-its-kind treatment enables direct comparison and contrast between different approaches, a perspective that is often obscured when these techniques are developed in isolation. Consequently, this work is intended not only as a collection of new technical results, but also as a pedagogical reference for understanding rigorous security analysis in quantum key distribution.

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  Physically-Based Simulation and Visualization of Optical Phenomena Elicited by Negative Refraction

  (University of Waterloo, 2026-04-08) Steinfield, Scott

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  Metamaterials characterized by a negative refractive index are being the object of intense research across a broad range of fields, from mathematics and physics to photonics and engineering. Nonetheless, the development of materials exhibiting this property in the visible spectral domain remains challenging. This situation, along with their potential transformative role in new technological advances, has motivated the scientific community to instrumentally employ computer graphics software to visually explore their interactions with light. In this work, we contribute to the initiatives in this area by describing a white-box methodology aimed at the physically-based simulation and visualization of optical phenomena elicited by these materials. We demonstrate its suitability to applications, both within and outside computer graphics, through the rendering of images depicting these phenomena under different optical scenarios, including those not examined in the literature to date.

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  Application of Latent Class Analysis to Examine the Association Between Allostatic Load and Profiles of Perceived Stress and Lack of Support Among Firefighters in the Waterloo Region

  (University of Waterloo, 2026-04-08) Adejumo, Seun

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  Background and Objectives Firefighters are often exposed to significant occupational hazards due to the demanding nature of their work. They are repeatedly exposed to trauma, physical strain, and emotional pressure because they are daily faced with fire rescue calls that involves live and properties. Such exposures make firefighters vulnerable to events that cause both physical and psychological stress. The cumulative effect of occupational stress among firefighters over the course of their career leads to wear and tear of their body system, and this has negative impact on their health outcomes. Additionally, their perception of stress may influence how they process and respond to everyday demands, which in turn could change their psychological resilience, quality of sleep, emotional regulation, and overall well-being. The effects of perceived stress may be further compounded when social support, which is meant to be a resiliency factor is lacking. With these points in mind, this thesis proposed a new paradigm of using validated instruments from the domains of psychosocial stress (PSS-10, SOOS-14) and social support (MS-PSS, SSS-FF) to develop a multidimensional profile, which we called Perceived Stress and (lack of) Support. In particular, this thesis used Latent Class Analysis as a means of modeling Perceived Stress and (lack of) Social Support Profiles (PSSP) via the aforementioned variables. This new concept of PSSP was motivated and applied to data gathered from firefighters in the City Waterloo. With these data, we examined the association between our proposed PSSP, and physiological stress captured by an Allostatic Load Profiles (ALP; developed for the same participants by Elliot 2024). This approach provided an understanding of how perceived stress and lack of social support can co-exist and their association with physiological wear and tear in this high-risk population. Methods This study used male-only data from the firefighter’s study in Waterloo. Latent class analysis (LCA) was applied to identify PSSP based on validated psychosocial indicators. Then, the ALP that was previously developed from physiological biomarkers in the same male-only data was used as the outcome variable in logistic regression models to examine its association with PSSP as the predictor variable. Furthermore, these models sequentially adjusted for relevant occupational and behavioural confounders which included length of service, sleep disturbance, alcohol use, exercise, and smoking. Finally, sensitivity analyses were conducted to assess the stability of the aforementioned objectives when using the pooled study sample, which included both male and female firefighters. Results For the male-only sample, approximately 50% of firefighters were classified into the elevated-ALP, while 70.1% were classified into the high-PSSP. The pooled sample had about 25.4% of firefighters with elevated ALP and 65.1% high PSSP class. Logistic regression results for the male-only sample indicated a positive association between elevated-PSSP and high-ALP; however, this association was not statistically significant in unadjusted (OR = 1.25, 95% CI: 0.38 – 4.51) and adjusted models (OR range 1.01 – 1.10). Adjusted models controlled for length of service, sleep disturbance, alcohol use, exercise, and smoking. Sensitivity analyses yielded similar results with narrow confidence intervals (CI), but still not statistically significant. Conclusion This study expands understanding of occupational stress in firefighters by showing that perceived stress and lack of social support co-occur as a distinct psychosocial profile. The association between the ‘high perceived stress and lack of social support’ profile and ‘elevated allostatic load’ profile was consistently positive, regardless of adjustment for confounders. Future research should build on these findings by using longitudinal designs and larger samples to inform occupational health interventions that simultaneously reduce stress and strengthen support systems within this unique sample.

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  Analog Emulation of Hyperbolic Space with and Coherence Effects in Superconducting Circuits

  (University of Waterloo, 2026-04-07) Xu, Xicheng

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  Superconducting circuits, recognized by the 2025 Nobel Prize in Physics, have become a leading platform for physics simulation, quantum computation, and advanced materials research. This thesis advances both physics emulation and coherence characterization within this framework. The first part presents a scalable superconducting-circuit architecture for studying physics dynamics on non-Euclidean lattices. By using high-quality semi-lumped coplanar waveguide resonators with carefully engineered capacitive couplings, we implement tight-binding networks whose connectivity cannot be embedded in Euclidean space. This enables the experimental realization of three distinct lattices: the {8, 3} hyperbolic lattice, a kagome-like variant, and a {12, 4} lattice whose fundamental domain resides on a genus-3 Riemann surface. Measurements reveal features predicted by hyperbolic band theory, including a macroscopically degenerate flat-band ground state and clear differentiation between Euclidean and hyperbolic connectivity. Next, the thesis explores coherence phenomena theoretically, focusing on the rapid generation of non-classical states relevant to bosonic quantum computing. A fast protocol is proposed to generate Schrodinger cat states in a resonator using a continuously driven qubit, without relying on the dispersive regime, Kerr nonlinearity, or engineered dissipation. Analysis in the resonant regime reveals that the cat-state size grows quadratically with time, and the method is extended to weakly anharmonic qutrits, making it applicable to transmon qubits. The final part examines noise and decoherence in superconducting qubits through long-duration purity benchmarking experiments. These measurements separately quantify coherent and incoherent error processes and reveal strong frequency dependence and telegraphic fluctuations that are consistent with coupling to individual two-level defects (TLSs). Additional multi-qubit characterization experiments, presented in the appendices, document the fabrication, calibration, and device-level procedures underlying the main projects. Altogether, this thesis demonstrates how engineered superconducting resonators and qubits can be used to emulate physics dynamics on curved geometries, generate useful nonclassical microwave states, and probe noise mechanisms, providing a unified experimental foundation for future circuit-based quantum technologies.

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  Evaluating Pharmacy Students’ Practice Readiness: Insights from Academic and Experiential Performance at University of Waterloo

  (University of Waterloo, 2026-04-06) Syed, Ali Abid

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  Background: Health professional programs, including pharmacy, face challenges in aligning academic training with real-world healthcare needs, affecting graduates' transition into practice. These challenges highlight the gap between theory and practice, particularly the role of experiential education in students’ practice readiness. Competency-based education and training frameworks such as Entrustable Professional Activities (EPAs), help address this. While EPAs are widely used in medical education, their application in Canadian pharmacy programs remains underexplored. The University of Waterloo Doctor of Pharmacy (PharmD) program, with its co-operative (co-op) education model, provides a unique context for further research in this space. Objectives: This research aims to assess the practice-readiness of University of Waterloo PharmD students and evaluate the utility of EPAs in measuring entry-to-practice competencies. Methods: This thesis includes three studies. The first study examines the relationship between student grades, co-op evaluations, and success on entry-to-practice milestones, including final-year clinical rotations and the Pharmacy Examining Board of Canada (PEBC) Pharmacist Qualifying Examination (QE). The second study explores co-op and rotation preceptors' perceptions of students' practice-readiness, highlighting competencies developed through experiential education. The third study investigates students’ and preceptors’ perceptions of EPAs amongst traditional assessment tools used in the experiential education program. Results: The first study identified predictors of success on clinical rotations and the PEBC QE. The second study found that both co-op and clinical rotations enhanced students’ confidence, communication skills, and teamwork. Co-op provided interprofessional experience, supporting students’ transition to final-year rotations focused on patient care. The third study revealed that students valued the real-world relevance of EPAs but had concerns about grading clarity and applicability in some co-op settings, particularly those not involving direct patient care. Supervisors and preceptors found EPAs practical but noted the need for training and rating consistency, and many preferred a hybrid model integrating EPAs with current tools. Conclusion: This thesis provides insights into existing and novel assessment methods in experiential education in pharmacy and identifies factors influencing practice-readiness among PharmD students within a co-operative education program.

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