Northwestern’s Physics PhD traverses scales from quarks to quasars. Doctoral researchers entangle photons in on-chip resonators, sift LIGO strain data for primordial black-hole mergers, and map dark-matter halos with machine-learning lensing. Cross-appointments with Fermilab, Argonne, and CIERA provide access to world-class facilities and interdisciplinary mentors.
Build cryo-CMOS amplifiers for superconducting-qubit readout
Simulate axion dark-matter signals in resonant cavity haloscopes
Grow and characterize 2-D magnetic van der Waals heterostructures
Analyze LSST real-time alerts for kilonova counterparts of gravitational-wave events
Develop GPU-accelerated lattice QCD code for baryon structure factors
Map cosmic web filaments via weak-lensing neural networks
Study many-body localization transitions in optical-lattice experiments
Design single-electron transistors probing Majorana zero modes
Measure ultra-high-Q phonon cavities for quantum acoustic devices
Model radiative feedback in early-galaxy formation with adaptive-mesh codes
Construct balloon-borne detectors for submillimeter CMB polarization
Investigate parity-violating asymmetries in electron scattering
Prototype a citizen-science platform classifying gravitational-wave glitches
Use quantum Monte Carlo to compute spin liquids in frustrated lattices
Write a policy brief on satellite mega-constellations’ impact on astronomy
Explore nature’s deepest laws with Northwestern’s Physics PhD.
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