Harvard’s EPS PhD immerses scholars in tectonics, geochemistry, climate dynamics, and comparative planetology. Students core drill Antarctic ice, invert seismic arrays beneath the Andes, and model magma oceans on exoplanets with GPU clusters. Cross‑lab collaborations with Smithsonian and NASA amplify discoveries influencing hazard mitigation and space exploration agendas.
Coupled climate–ice‑sheet model forecasting West Antarctic melt
Isotope analysis tracing mantle plume sources at Hawaii
Machine‑learning classification of Mars rover spectral data
High‑pressure experiment replicating super‑Earth core formation
Paleoclimate proxy reconstruction from speleothem growth layers
Seismic tomography imaging New England lithosphere thinning
GIS study of urban subsidence linked to groundwater extraction
VR field‑trip module of the Mid‑Atlantic Ridge
Geo‑archeological survey of coastal paleotsunami deposits
Policy brief on mineral‑criticality for renewable batteries
Citizen‑science platform mapping micro‑quake swarms
3‑D geodynamic model of plate boundary megathrust cycles
Ethics white paper on geoengineering stratospheric aerosols
Framework for open‑data sharing of planetary‑spectra libraries
Capstone outreach program teaching climate science in schools
From deep time to deep space, unravel planetary processes with Harvard EPS.
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