Ph.D. Dissertations | EECS at UC Berkeley

HfO2-ZrO2-based Ferroelectricity for Next-Generation Energy-Efficient Electronics
Nirmaan Shanker [2024]

Investigation of Energy Efficient Magnetic Switching in Novel Materials and Device Structures for Spintronics Application
Jason Cheng-Hsiang Hsu [2023]

Magnetoelasticity for Integration of Quantum Defects
Adi Jung [2023]

Probabilistic Ising Architectures for Combinatorial Optimization, Machine Learning and Neuromorphic Computing
Saavan Patel [2023]

Modeling and Design of Nanoscale Ferroelectric and Negative-Capacitance Gate Transistors
Yu-Hung Liao [2021]

Towards High-Endurance, Nonvolatile, CMOS-Compatible Ferroelectric Memories for Next-Generation Computing
Ava Tan [2021]

Design and Characterization of Ferroelectric Negative Capacitance
Korok Chatterjee [2018]

Negative capacitance and hyperdimensional computing for unconventional low-power computing
Justin Wong [2018]

Acoustically Driven Ferromagnetic Resonance for Device Applications
Dominic Labanowski [2017]

2-D Materials: Low Power Electronics and Novel Device Possibilities
Varun Mishra [2017]

Negative Capacitance for Ultra-low Power Computing
Asif Islam Khan [2015]

pin orbit torque driven magnetic switching for low power computing and memory
Debanjan Bhowmik [2015]

Switching Dynamics of Thin Film Ferroelectric Devices - A Massively Parallel Phase Field Study
Khalid Md Ashraf [2013]

Tunneling in low-power device-design: A bottom-up view of issues, challenges, and opportunities
Kartik Ganapathi [2013]