1. ホーム
  2. > 研究活動
  3. > Research Highlights
  4. > Vol. 1 MANA scientists discover that ・・・

researchhighlightsResearch Highlights

[Vol. 1]

Atomic nano-switches emulate human memory

2011.09.14

MANA scientists discover that inorganic synapses mimic the human brain.

Figure : Tailor-made dielectric nanosheet via controlled nanoscale doping. (a) Structural change induced by Nb doping. (b) AFM image of titanium-niobate nanosheet.



In a breakthrough, researchers at the International Center for Materials Nanoarchitectonics (MANA) demonstrate for the first time the key features in the neuroscience and psychology of memory by a AgS2 synapse.

Artificial neural networks have attracted attention as a means to a better understanding of biological neural networks, as well as aiding developments in artificial intelligence. The complex and interconnected nature of thought processes make neural behavior difficult to reproduce in artificial structures without software programming. Now Takeo Ohno and researchers at the International Center for Materials Nanoarchitectonics (MANA), Tsukuba, Japan, and the University of California have mimicked synaptic activity with the electroionic behavior of a nanoscale AgS2 electrode.

The researchers observed a temporary higher-conductance state in the AgS2system following an incident electric pulse. Repetition of the input pulse over 2 s intervals led to permanently higher conductance. These two responses mimic the short-term plasticity and long-term potentiality in biological synapses.

In the most widely accepted ‘multistore’ model of memory in human psychology, new information is stored briefly as a sensory memory. Rehearsal converts short-term memory to long-term. When demonstrating memorization of the numerals ‘1’ and ‘2’ in a 7 × 7 inorganic synapse array, the behaviour of the artificial synapse indicated ‘multistore’ memory rather than a conventional switch.

The researchers add, “The data indicate that we may apply a psychlogical memory model simultaneously with the emulation of biological synaptic-like behaviour.”

Reference

"Short-term plasticity and long-term potentiation mimicked in single inorganic synapses"
Takeo Ohno, Tsuyoshi Hasegawa, Tohru Tsuruoka, Kazuya Terabe, James K. Gimzewski,
and Masakazu Aono
Journal: Nature Materials. 10, 591–595 (2011) [26 June 2011]
DOI : 10.1038/nmat3054


Affiliations

International Center for Materials Nanoarchitectonics (WPI-MANA), National Institute for Materials Science (NIMS), Namiki 1-1, Tsukuba, Ibaraki 305-0044, Japan


Contact information

ナノアーキテクトニクス材料研究センター(MANA)

〒305-0044 茨城県つくば市並木1-1
TEL: 029-860-4710
E-mail: mana-pr=ml.nims.go.jp([ = ] → [ @ ] )

To receive our e-mail newsletter “MANA Research Highlights”, please send an e-mail with "MANA Research Highlights request” in the subject line or main text to the following address: mana-pr_at_ml.nims.go.jp *Please change "_at_ " in the email address to @.
研究活動