Princeton’s Ph.D. in Physics program enables groundbreaking research across theoretical, experimental, and computational domains. The topics below reflect the rich diversity of fundamental and applied investigations offered in the department.
Quantum Entanglement in Topological Insulators
Supersymmetry and Its Implications for Dark Matter
String Theory Compactifications and Extra Dimensions
Gravitational Wave Signatures from Binary Neutron Star Mergers
Quantum Field Theory in Curved Spacetime
Neutrino Oscillations and Lepton Flavor Violation
High-Temperature Superconductivity Mechanisms
Black Hole Thermodynamics and the Holographic Principle
Strongly Correlated Electron Systems in 2D Materials
Time Crystals and Non-Equilibrium Phases of Matter
Lattice Gauge Theory Simulations of QCD
Optical Lattices and Quantum Simulation of Many-Body Systems
Phase Transitions in Early Universe Cosmology
Axion Detection Techniques in Quantum Sensors
Topological Quantum Computing Using Anyons
Plasma Instabilities in Fusion Reactors
Precision Tests of the Standard Model via Muon g-2
AdS/CFT Correspondence and Quantum Gravity Models
Quantum Chaos and Random Matrix Theory in Complex Systems
Dark Energy Models and Large Scale Structure Formation
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