GT’s ECE PhD spans quantum photonics to grid-scale power electronics. Researchers tape-out 5 nm AI accelerators, design terahertz imaging arrays, and model grid-forming inverters with DOE labs—publishing at ISSCC, OFC, and PES.
In-memory compute array for transformer inference
GaN inverter topology for megawatt EV chargers
Silicon-photonics QKD transceiver for datacenter links
Printed graphene antenna for wearable health monitors
Edge AI radar for fall detection in smart homes
Wide-bandgap motor drive reducing EV drivetrain losses
Neuromorphic photonic accelerator using MZI meshes
Power-line communication scheme for microgrid coordination
RF energy-harvesting sensor node for infrastructure monitoring
AI-driven EMI prediction in high-density PCB layouts
Reconfigurable intelligent surface for 6G beamforming
Secure hardware root-of-trust leveraging PUF arrays
FPGA SDR jammer detector for UAV swarms
Magnetic-resonance coupling for dynamic EV charging
Digital twin of fast-charger harmonics on distribution feeders
Invent electronics and algorithms driving next-gen connectivity.
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