The Applied Physics PhD at Harvard SEAS equips researchers to probe quantum materials, design soft robots, and harness ultrafast light–matter interactions. Students fabricate superconducting qubits in cleanrooms, trap atoms in optical tweezers, and model bio-hybrid actuators with neural nets. Industry-academic partnerships propel discoveries toward quantum computing start-ups and sustainable energy technologies.
Topological photonic crystal guiding disorder-immune light
Femtosecond spectroscopy mapping energy flow in perovskites
Bio-inspired hydrogel actuator for minimally invasive surgery
Quantum-noise-limited microwave amplifier for dark-matter detection
Machine-learning optimization of 3-D printed metamaterials
Superconducting qubit readout with high-impedance resonators
Optomechanical sensor detecting single virus particles
Colloidal self-assembly of reconfigurable optical lattices
Thesis on spin-orbit torque in 2-D magnetic heterostructures
Quantum-internet protocol demonstration over free-space link
Open-hardware control system for ultracold-atom experiments
Public science exhibit visualizing terahertz field pulses
Ethics analysis of dual-use quantum encryption technologies
Engineer quantum and bio-inspired innovations at the edge of physics.
Whether it's Machine Learning, Data Science, or Web Development, Collexa is here to support your academic journey.
"Collexa transformed my academic experience with their expert support and guidance."
Computer Science Student
Reach out to us for personalized academic assistance and take the next step towards success.
