CMU’s Physics PhD empowers you to explore scales spanning attoseconds to eons. Candidates might entangle photons in the Quantum Nanofab, model neutron-star crusts on the Pittsburgh Supercomputing Center, or align CERN tracking detectors while debating dark-energy policy with cosmologists. A dual-mentorship model pairs you with both theoretical and experimental advisors, and a Science-Communication Fellows program trains you to translate discoveries for policymakers and the public.
Monte-Carlo lattice QCD study constraining axion mass ranges
Superconducting qubit coherence enhancement via phononic band-gap engineering
Bayesian inference of gravitational-wave polarization from LIGO-VIRGO catalogs
Geant4 simulation optimizing calorimeter geometry for future e⁺e⁻ colliders
Time-resolved ARPES investigation of ultrafast charge-density-wave melting
Quantum annealing heuristic solving NP-hard transport scheduling
Solar-axion helioscope design using low-noise TES sensors
Graph neural-network trigger filtering for high-luminosity LHC events
Data-driven prediction of space-weather impacts on satellite constellations
Neutrino-oscillation parameter fit incorporating IceCube and JUNO data
3-D hydrodynamic model of core-collapse supernova nucleosynthesis
Cryogenic phonon sensor array for sub-GeV dark-matter searches
Laser-cooled strontium lattice clock evaluating fine-structure constant drift
Citizen-science VR tool visualizing cosmic large-scale structure
Policy brief on quantum-technology export-control harmonization
Open-source Jupyter textbook animating classical-mechanics chaos systems
Investigate the universe’s deepest questions with CMU Physics.
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