We investigate the dynamic behaviour of resonant tunneling diode-photodetectors (RTD-PDs) in which the excitability can be activated by either electrical noise or optical signals. In both cases, we find the characteristics of the stochastic spiking behavior are not only dependent on the biasing positions but also controlled by the intensity of the input perturbations. Additionally, we explore the ability of RTD-PDs to perform optical signal transmission and neuromorphic spike generation simultaneously. These versatile functions indicate the possibility of making use of RTD-PDs for innovative applications, such as optoelectronic neuromorphic circuits for spike-encoded signaling and data processin
We present a method to include the effects of light excitation on two different models of resonant-t...
We report on photo-detectors consisting of an optical waveguide that incorporates a resonant tunneli...
[eng] ABSTRACT In this article, the standard theoretical model accounting for a double barrier quant...
We investigate the dynamic behaviour of resonant tunneling diode-photodetectors (RTD-PDs) in which t...
This work reports a nanostructure resonant tunnelling diode-photodetector (RTD-PD) device and demons...
We demonstrate, experimentally and theoretically, excitable nanosecond optical pulses in optoelectro...
We investigate the dynamics of optoelectronic oscillator (OEO) systems based on resonant tunneling d...
Excitable optoelectronic devices represent one of the key building blocks for implementation of arti...
In this work, we introduce an interconnected nano-optoelectronic spiking artificial neuron emitter-r...
In this paper, we report on the fabrication of micrometre and nanometre-sized resonant tunnelling di...
We report high-speed, energy-efficient artificial optoelectronic spiking neurons based upon resonant...
Optical modulation characteristics of resonant tunneling diode photodetectors (RTD‐PD) are investiga...
With the recent development of artificial intelligence and deep neural networks, alternatives to the...
We investigate the dynamics of optoelectronic oscillators (OEOs) employing high-speed resonant tunne...
This paper describes the fabrication of nanometre-sized resonant tunnelling diode (RTD) photodetec...
We present a method to include the effects of light excitation on two different models of resonant-t...
We report on photo-detectors consisting of an optical waveguide that incorporates a resonant tunneli...
[eng] ABSTRACT In this article, the standard theoretical model accounting for a double barrier quant...
We investigate the dynamic behaviour of resonant tunneling diode-photodetectors (RTD-PDs) in which t...
This work reports a nanostructure resonant tunnelling diode-photodetector (RTD-PD) device and demons...
We demonstrate, experimentally and theoretically, excitable nanosecond optical pulses in optoelectro...
We investigate the dynamics of optoelectronic oscillator (OEO) systems based on resonant tunneling d...
Excitable optoelectronic devices represent one of the key building blocks for implementation of arti...
In this work, we introduce an interconnected nano-optoelectronic spiking artificial neuron emitter-r...
In this paper, we report on the fabrication of micrometre and nanometre-sized resonant tunnelling di...
We report high-speed, energy-efficient artificial optoelectronic spiking neurons based upon resonant...
Optical modulation characteristics of resonant tunneling diode photodetectors (RTD‐PD) are investiga...
With the recent development of artificial intelligence and deep neural networks, alternatives to the...
We investigate the dynamics of optoelectronic oscillators (OEOs) employing high-speed resonant tunne...
This paper describes the fabrication of nanometre-sized resonant tunnelling diode (RTD) photodetec...
We present a method to include the effects of light excitation on two different models of resonant-t...
We report on photo-detectors consisting of an optical waveguide that incorporates a resonant tunneli...
[eng] ABSTRACT In this article, the standard theoretical model accounting for a double barrier quant...