Engineering Complex Synaptic Behaviors In A Single Device: Emulating Consolidation Of Short-Term Memory To Long-Term Memory In Artificial Synapses Via Dielectric Band Engineering
NANO LETTERS(2020)
摘要
As one of the key neuronal activities associated with memory in the human brain, memory consolidation is the process of the transition of short-term memory (STM) to long-term memory (LTM), which transforms an external stimulus to permanently stored information. Here, we report the emulation of this complex synaptic function, consolidation of STM to LTM, in a single-crystal indium phosphide (InP) field effect transistor (FET)-based artificial synapse. This behavior is achieved via the dielectric band and charge trap lifetime engineering in a dielectric gate heterostructure of aluminum oxide and titanium oxide. We analyze the behavior of these complex synaptic functions by engineering a variety of action potential parameters, and the devices exhibit good endurance, long retention time (>10(5) s), and high uniformity. Uniquely, this approach utilizes growth and device fabrication techniques which are scalable and back-end CMOS compatible, making this InP synaptic device a potential building block for neuromorphic computing.
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关键词
synaptic consolidation, artificial synapse, neuromorphic computing, single-crystal indium phosphide
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