LAUSR

We demonstrate a non-volatile field-effect transistor (NVFET) with a 3-nm amorphous HfO 2 dielectric that can simulate the synaptic functions under the difference and repetition of gate voltage ( V G ) pulses. Under 100 ns write/erase (W/E) pulse, a memory window greater than 0.56 V and cycling endurance above 10 6 are obtained. The storied information as short-term plasticity (STP) in the device has a spiking post-synaptic drain current ( I D ) that is a response to the V G input pulse and spontaneous decay of I D . A refractory period after the stimuli is observed, during which the I D hardly varies with the V G well-emulating the bio-synapse behavior. Short-term memory to long-term memory transition, paired-pulse facilitation, and post-tetanic potentiation are realized by adjusting the V G pulse waveform and number. The experimental results indicate that the amorphous HfO 2 NVFET is a potential candidate for artificial bio-synapse applications.