Harvard SEAS’s SM in Applied Physics immerses students in experimental and theoretical frontiers such as quantum photonics, bio-inspired materials, and ultrafast spectroscopy. Learners fabricate nanophotonic chips in the Center for Nanoscale Systems, model topological phases, and collaborate with the Wyss Institute on soft-robotic actuators, positioning graduates for PhD study and R&D leadership in quantum tech and advanced materials.
Nanopatterned metasurface lens for compact AR displays
Topological-insulator thin-film growth via molecular-beam epitaxy
Femtosecond pump-probe study of exciton dynamics in perovskites
Magneto-optical trap design for neutral-atom quantum computing
3-D printed kirigami actuator for search-and-rescue robotics
Photonic crystal cavity sensing single-molecule binding events
Electro-optic modulator reducing loss in silicon photonics
Computational model of mechanical metamaterials with negative Poisson ratio
Cryogenic measurement of superconducting qubit coherence times
Capstone on green fabrication of biodegradable flexible electronics
Ultrafast spectroscopy of energy transfer in photosynthetic proteins
Simulation toolkit for teaching quantum transport phenomena
Podcast interviewing industry leaders on quantum commercialization
Workshop on open-source control electronics for lab automation
Ethics brief on dual-use concerns in quantum encryption
Harness fundamental physics to engineer the technologies of tomorrow.
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