Electro-optical synaptic characteristics of ferroelectric liquid crystals for artificial intelligence

Jeong-Seon Yu; Jong-Hyun Kim; Jong-Hyun Kim

doi:10.1364/AO.478415

Applied Optics
Vol. 62,
Issue 4,
pp. 914-920
(2023)
•https://doi.org/10.1364/AO.478415

Electro-optical synaptic characteristics of ferroelectric liquid crystals for artificial intelligence

Jeong-Seon Yu and Jong-Hyun Kim

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Jeong-Seon Yu and Jong-Hyun Kim, "Electro-optical synaptic characteristics of ferroelectric liquid crystals for artificial intelligence," Appl. Opt. 62, 914-920 (2023)

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- Imaging Systems, Image Processing, and Displays
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About this Article
History
- Original Manuscript: October 19, 2022
- Revised Manuscript: December 10, 2022
- Manuscript Accepted: December 23, 2022
- Published: January 23, 2023

Abstract

We propose electro-optical synaptic devices using surface-stabilized ferroelectric liquid crystals. Typical synaptic characteristics were observed for varying pulse time intervals, numbers of pulses, and signal voltages. Plasticity only occurred when pulses were applied at intervals shorter than the response time of the ferroelectric liquid crystal. Moreover, the plasticity increased with a higher pulse voltage and number of pulses. This demonstrates the importance of repeated learning. The synaptic weights required to make connections through learning in an artificial neural network can be determined by tuning the pulse signal. We discuss the high-speed computational potential of optical neuromorphic devices using liquid crystals.

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