Synergistic improvement of long‐term plasticity in photonic synapses using ferroelectric polarization in hafnia‐based oxide‐semiconductor transistors

MK Kim, JS Lee - Advanced Materials, 2020 - Wiley Online Library
A number of synapse devices have been intensively studied for the neuromorphic system
which is the next‐generation energy‐efficient computing method. Among these various …

Synergistic Improvement of Long-Term Plasticity in Photonic Synapses Using Ferroelectric Polarization in Hafnia-Based Oxide-Semiconductor Transistors

MK Kim, JS Lee - Advanced materials (Deerfield Beach …, 2020 - pubmed.ncbi.nlm.nih.gov
A number of synapse devices have been intensively studied for the neuromorphic system
which is the next-generation energy-efficient computing method. Among these various types …

Synergistic Improvement of Long‑Term Plasticity in Photonic Synapses Using Ferroelectric Polarization in Hafnia‑Based Oxide‑Semiconductor Transistors

MK Kim, JS Lee - Advanced Materials, 2020 - ui.adsabs.harvard.edu
A number of synapse devices have been intensively studied for the neuromorphic system
which is the next‑generation energy‑efficient computing method. Among these various types …

[引用][C] Synergistic Improvement of Long‐Term Plasticity in Photonic Synapses Using Ferroelectric Polarization in Hafnia‐Based Oxide‐Semiconductor Transistors

MK Kim, JS Lee - Advanced Materials, 2020 - cir.nii.ac.jp
Synergistic Improvement of Long‐Term Plasticity in Photonic Synapses Using Ferroelectric
Polarization in Hafnia‐Based Oxide‐Semiconductor Transistors | CiNii Research CiNii 国立 …

Synergistic Improvement of Long-Term Plasticity in Photonic Synapses Using Ferroelectric Polarization in Hafnia-Based Oxide-Semiconductor Transistors.

MK Kim, JS Lee - Advanced Materials (Deerfield Beach, Fla.), 2020 - europepmc.org
A number of synapse devices have been intensively studied for the neuromorphic system
which is the next-generation energy-efficient computing method. Among these various types …