| Modeling of phase-change memory: Nucleation, growth, and amorphization dynamics during set and reset: Part II—Discrete grains Z Woods, J Scoggin, A Cywar, A Gokirmak IEEE Transactions on Electron Devices 64 (11), 4472-4478, 2017 | 43 | 2017 |
| Modeling of phase-change memory: Nucleation, growth, and amorphization dynamics during set and reset: Part I—Effective media approximation Z Woods, A Gokirmak IEEE Transactions on Electron Devices 64 (11), 4466-4471, 2017 | 42 | 2017 |
| Modeling heterogeneous melting in phase change memory devices J Scoggin, Z Woods, H Silva, A Gokirmak Applied Physics Letters 114 (4), 2019 | 13 | 2019 |
| Phase change memory and its applications in hardware security RS Khan, N Noor, C Jin, J Scoggin, Z Woods, S Muneer, A Ciardullo, ... Security Opportunities in Nano Devices and Emerging Technologies, 93-114, 2017 | 12 | 2017 |
| Modeling of void formation in phase change memory devices A Cywar, Z Woods, SB Kim, M BrightSky, N Sosa, Y Zhu, HS Kim, HK Kim, ... Solid-State Electronics 164, 107684, 2020 | 6 | 2020 |
| Modeling Reset, Set, and Read Operations in Nanoscale Ge2Sb2Te5 Phase‐Change Memory Devices Using Electric Field‐ and Temperature‐Dependent … MTB Kashem, J Scoggin, Z Woods, H Silva, A Gokirmak physica status solidi (RRL)–Rapid Research Letters 17 (8), 2200419, 2023 | 5 | 2023 |
| Phase‐Change Logic via Thermal Cross‐Talk for Computation in Memory N Kanan, RS Khan, Z Woods, H Silva, A Gokirmak physica status solidi (RRL)–Rapid Research Letters 15 (3), 2000422, 2021 | 5 | 2021 |
