Georgia Tech’s Physics PhD invites explorers to test theory with unparalleled hardware. Doctoral candidates pattern superconducting qubits in class-100 cleanrooms, cool atoms to nano-Kelvin in optical lattices, and analyze petabytes from the Dark Energy Survey on the PACE super-cluster. Cross-disciplinary electives in materials science, astrophysics, and machine-learning inference ensure graduates can both wire a SQUID amplifier and optimize Bayesian cosmology codes. Collaborations with CERN, LIGO, and the Flatiron Institute mean first-author papers routinely reshape Standard-Model extensions or exoplanet-atmosphere retrievals.
Quantum-random-walk experiment on photonic waveguides
Spin-ice monopole dynamics via neutron scattering at ORNL
Weak-lensing mass-mapping pipeline for Euclid telescope data
Laser-cooling optimization of strontium optical-clock atoms
Finite-temperature DFT of graphene/BN heterostructures
Josephson parametric-amplifier readout for superconducting qubits
Anisotropic acoustic metamaterial lens for sub-diffraction imaging
Chameleon dark-energy field search using torsion pendulums
Active-matter simulation of bacterial swarming in micro-channels
Quantum-Monte-Carlo benchmarking of high-Tc cuprate models
Muon-g-2 anomaly data analysis with lattice-QCD inputs
Atom-interferometric gravimeter for civil-engineering surveys
Fractional quantum Hall effect study in MoS₂ devices
Chaotic pendulum VR visualization of nonlinear phase space
Terahertz spin-tronic emitter for ultrafast spectroscopy
Explore fundamentals and engineer tomorrow’s quantum technologies.
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