UC’s MS in Physics offers rigorous training and research opportunities from quantum materials to high-energy particle detectors, preparing students for PhD or tech innovation.
Angle-resolved photoemission study of topological insulator surface states
Design of silicon pixel sensors for next-generation collider experiments
Quantum Monte Carlo simulation of frustrated magnetism on kagome lattices
Superconducting qubit coherence optimization via surface-loss mitigation
Cold-atom experiment realizing synthetic gauge fields in optical lattices
Neutrino oscillation parameter fit using Bayesian hierarchical models
Machine-learning classification of gravitational-wave glitch morphologies
Laser cooling scheme for molecular ions toward precision clocks
Density-functional theory screening of high-pressure hydride superconductors
White paper on open - data initiatives in particle physics
Micromegas detector prototype for directional dark-matter searches
Public outreach hologram explaining quantum entanglement
Cryogenic STM imaging of charge-density waves in monolayer NbSe₂
Network analysis of citation patterns in condensed-matter preprint archives
VR simulation of LHC proton collisions for high-school curricula
Axion-like particle detection prospects in resonant cavity haloscopes
Comparison of path-integral and canonical quantization in curved spacetime
Conference poster on GPU-accelerated lattice QCD computations
Policy brief on research reactor isotope supplies for medical physics
Workshop teaching undergraduates LaTeX and Python for physics labs
Push the boundaries of knowledge with UC’s discovery-driven MS.
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