Robust Noise Characteristics in Carbon Nanotube Transistors Based on Stochastic Resonance and Their Summing Networks

Hakamata, Yasufumi; Ohno, Yasuhide; Maehashi, Kenzo; Inoue, Kōichi; Matsumoto, Kazuhiko

doi:10.7567/jjap.50.06ge03

Cited by 9 publications

(6 citation statements)

References 40 publications

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“…SR has now been observed in a wide variety of physical systems including bi-stable ring lasers 9 , optical heterodyning 18 , electronic paramagnetic resonance 19 , superconducting quantum interference devices (SQUID) 7 , and tunnel diodes 8 , among others. While there are some reports of experimental demonstration of SR in field-effect transistors (FETs) based on carbon nanotubes [20][21][22] , GaAs nanowires [23][24][25][26] , and organic semiconductors 27 , the strength of SR is yet to be exploited in solid-state sensors.…”

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confidence: 99%

Stochastic resonance in MoS2 photodetector

et al. 2020

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In this article, we adopt a radical approach for next generation ultra-low-power sensor design by embracing the evolutionary success of animals with extraordinary sensory information processing capabilities that allow them to survive in extreme and resource constrained environments. Stochastic resonance (SR) is one of those astounding phenomena, where noise, which is considered detrimental for electronic circuits and communication systems, plays a constructive role in the detection of weak signals. Here, we show SR in a photodetector based on monolayer MoS 2 for detecting ultra-low-intensity subthreshold optical signals from a distant light emitting diode (LED). We demonstrate that weak periodic LED signals, which are otherwise undetectable, can be detected by a MoS 2 photodetector in the presence of a finite and optimum amount of white Gaussian noise at a frugal energy expenditure of few tens of nano-Joules. The concept of SR is generic in nature and can be extended beyond photodetector to any other sensors.

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confidence: 99%

Stochastic resonance in MoS2 photodetector

et al. 2020

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“…This is a phenomenon where a threshold value of noise is used to extract the information from a weak signal. [12] The first stochastic resonance phenomenon in an electronic system was observed in a Schmitt trigger circuit [13] and thereafter it was reported to be observed in many electronic devices such as super conducting quantum interference devices (SQUID), [14] field-effect transistors (FETs), [15][16][17] photodetectors, [12,18,19] etc. Generally, these devices engage external noise generators, [20,21] which may set limit to the dimensionality and applicability of the system.…”

Section: Introductionmentioning

confidence: 99%

Evidence of Laser‐Induced Amplification of Random Noise in WS₂ Nanosheets Based Resistive System

Neog

Biswas

2022

Physica Rapid Research Ltrs

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Electronic noises are indispensable part of stochastic resonance (SR) and other molecular neuromorphic devices. Considering the paramount significance of such devices, investigation of artificial noise generation with further amplification attributes of WS2 nanosheets based resistive unit is endeavored. To realize it, Cu interdigital electrodes (IDE) are fabricated on copper clad and chemically exfoliated hexagonal WS2 nanosheets are drop‐casted on the surface of as‐fabricated IDE. In ambient conditions as well as in the presence of resistance fluctuations and defects in the layered material, the resistive unit is found to develop noise with an average peak‐to‐peak fluctuation of ≈13 nA on the linear current–voltage (I–V) characteristics of the device. On performing irradiation with 5 mW red, green, and blue laser on to the very fabricated unit, a maximum ≈60 nA current fluctuations in the I–V characteristics are detected. Additionally, the current fluctuation is found to be more prominent for green laser than that of red and blue laser.

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“…In particular, CNT field-effect transistors (CNTFETs), [7][8][9] in which semiconducting single-walled carbon nanotubes (SWNTs) are used as channels, are expected to be applied as CNT-based nanodevices and highly sensitive label-free sensors. [10][11][12][13][14][15][16][17][18][19][20] Among them, CNT-based memory devices are promising candidate low-power consumption devices. As shown in Fig.…”

Section: Introductionmentioning

confidence: 99%

Floating-gated memory based on carbon nanotube field-effect transistors with Si floating dots

Seike¹,

Fujii²,

Ohno³

et al. 2014

Jpn. J. Appl. Phys.

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We report on the fabrication and investigation of few-nanometers-thick superconducting molybdenum-rhenium (Mo-Re) films intended for use in nanowire single-photon superconducting detectors (SSPDs). Mo-Re films were deposited on sapphire substrates by DC magnetron sputtering of an Mo(60)-Re(40) alloy target in an atmosphere of argon. The films 2-10 nm thick had critical temperatures (T c ) from 5.6 to 9.7 K. HRTEM (high-resolution transmission electron microscopy) analysis showed that the films had a homogeneous structure. XPS (x-ray photoelectron spectroscopy) analysis showed the Mo to Re atom ratio to be 0.575/0.425, oxygen concentration to be 10%, and concentration of other elements to be 1%.

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Robust Noise Characteristics in Carbon Nanotube Transistors Based on Stochastic Resonance and Their Summing Networks

Cited by 9 publications

References 40 publications

Stochastic resonance in MoS2 photodetector

Stochastic resonance in MoS2 photodetector

Evidence of Laser‐Induced Amplification of Random Noise in WS₂ Nanosheets Based Resistive System

Floating-gated memory based on carbon nanotube field-effect transistors with Si floating dots

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Robust Noise Characteristics in Carbon Nanotube Transistors Based on Stochastic Resonance and Their Summing Networks

Cited by 9 publications

References 40 publications

Stochastic resonance in MoS2 photodetector

Stochastic resonance in MoS2 photodetector

Evidence of Laser‐Induced Amplification of Random Noise in WS2 Nanosheets Based Resistive System

Floating-gated memory based on carbon nanotube field-effect transistors with Si floating dots

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Product

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Evidence of Laser‐Induced Amplification of Random Noise in WS₂ Nanosheets Based Resistive System