Northwestern’s EE PhD empowers researchers to design ultra-low-noise quantum sensors, 6 G millimeter-wave arrays, and AI-optimized micro-grids. Students fabricate silicon-nitride photonic circuits in class-100 clean-rooms, test wide-bandgap Ga₂O₃ devices in power labs, and publish best-paper work at ISSCC and CLEO. Entrepreneurship fellowships spur semiconductor start-ups, while teaching-with-technology training preps academic careers.
Design cryo-CMOS readout ICs for superconducting qubit arrays
Fabricate III-Nitride UV-LEDs and characterize deep-ultraviolet efficiencies
Develop adaptive beam-forming algorithms for 140 GHz vehicular radar
Model EMI mitigation in GaN inverter boards with finite-element analysis
Prototype neuromorphic edge-AI co-processors using RRAM crossbars
Measure spin-orbit torque in ferromagnetic-topological insulator stacks
Implement real-time RF fingerprinting for drone-swarm identification
Create metasurface antennas enabling holographic MIMO links
Evaluate lithium-niobate photonic modulators for data-center interconnects
Build machine-learning predictors of semiconductor yield from in-line metrology
Test wireless power-transfer pads for bidirectional EV-to-grid flow
Design a secure hardware root-of-trust using physically unclonable functions
Investigate terahertz spectroscopy for non-destructive battery QC
Draft DOE SBIR proposal on SiC converters for offshore-wind turbines
Write policy guidelines for e-waste circularity in power semiconductors
Invent the electronics and energy systems of tomorrow with Northwestern’s EE PhD.
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