UMD’s PhD in Physics offers world-class training in quantum physics, condensed matter, high-energy physics, atomic physics, and astrophysics. Students engage in frontier research using both experimental tools and computational modeling.
Investigation of quantum coherence in superconducting qubit systems
Gravitational wave data analysis using LIGO observatory datasets
Dissertation on quantum field theory in curved spacetime
Measurement of spin-orbit coupling in ultracold atom traps
Modeling phase transitions in 2D materials under pressure
Design of novel metamaterials with negative refractive index
High-precision spectroscopy of atomic energy level shifts
Simulation of dark matter interactions using lattice QCD
Development of cryogenic detectors for neutrino experiments
Theoretical modeling of topological insulators
Dissertation on gauge symmetry breaking in grand unified theories
Experimental analysis of optical lattice potentials
Study of decoherence in quantum thermodynamics
Measurement of Casimir forces at nanoscale separations
Design of quantum memory using entangled photon pairs
Numerical relativity simulations of black hole mergers
Research on plasma turbulence in fusion reactors
Atomic clock synchronization via quantum entanglement
Superconductivity research in iron-based crystal systems
Simulation of Hawking radiation in analog gravity systems
Discover the laws that govern reality through experimental and theoretical research in UMD’s Physics PhD.
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