Georgia Tech’s Physics BS offers a research-first journey through classical mechanics, electromagnetism, and quantum field theory, backed by HPC simulations and precision experiments. Undergrads build superconducting qubits in cleanrooms, chase ultra-cold atoms near absolute zero, and analyze dark-energy surveys with petabyte datasets. Cross-disciplinary electives bridge photonics, soft-matter physics, and econophysics, while alumni networks place students at CERN, LIGO, and top doctoral programs. The result: versatile scientists fluent in experiment, code, and cosmological wonder.
Quantum-random-walk experiment on photonic waveguide chips
Spin-ice monopole dynamics studied via neutron scattering
Weak-lensing mass-mapping pipeline for Euclid telescope data
Laser-cooling optimization of strontium optical-clock atoms
Finite-temperature DFT study of graphene-on-boron-nitride heterostructures
Superconducting qubit readout using Josephson parametric amplifiers
Anisotropic acoustic metamaterial lens for sub-diffraction imaging
Search for chameleon dark-energy fields with torsion pendulum
Active-matter simulation of bacterial swarming in micro-channels
Quantum-Monte-Carlo benchmarking of high-Tc cuprate models
Magneto-optical Kerr microscope for skyrmion domain observation
Muon-g-2 anomaly data analysis and theoretical comparison
Chaotic pendulum experiment visualized with real-time phase-space VR
Gravimeter based on atom interferometry for civil engineering surveys
Study of fractional quantum Hall effect in MoS₂ heterostructures
Explore fundamental truths and engineer tomorrow’s quantum tech.
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