Conditions for enhanced shot noise in field-effect transistors

IF 3.8 2区物理与天体物理 Q2 PHYSICS, APPLIED Physical Review Applied Pub Date : 2024-08-12 DOI:10.1103/physrevapplied.22.024037

Fabrizio Mazziotti, Demetrio Logoteta, Giuseppe Iannaccone

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Abstract

We demonstrate that it is possible to observe enhanced shot noise in field-effect transistors, i.e., a current noise spectral density

S > S_{Poisson}

, where

S_{Poisson} = 2 q I

is the so-called “shot noise” spectral density associated to a Poissonian process of electrons traversing the channel. Whereas the effects responsible for shot-noise suppression have been broadly investigated, here we unveil the mechanism and the conditions leading to an enhancement of shot noise in field-effect transistors biased in the subthreshold or weak inversion regime, that have particular relevance in the case of short-channel metal-oxide-semiconductor field-effect transistors. The effect is due to the interplay between carrier backscattering in the channel and Coulomb repulsion among carriers. We evaluate quantitatively the effect with a semianalytical model for different types of transistors, and find a characteristic shape of the Fano factor

F = S / S_{Poisson}

as a function of gate bias, that enables us to look for the signature of this effect in experiments.

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场效应晶体管射出噪声增强的条件

我们证明，在场效应晶体管中可以观察到增强的击穿噪声，即电流噪声谱密度 S>Spoisson，其中 SPoisson=2qI 是与电子穿越沟道的泊松过程相关的所谓 "击穿噪声 "谱密度。尽管对抑制击穿噪声的效应进行了广泛的研究，但我们在此揭示了在亚阈值或弱反转机制下偏置的场效应晶体管中导致击穿噪声增强的机制和条件，这与短沟道金属氧化物半导体场效应晶体管的情况特别相关。这种效应是由沟道中的载流子反向散射和载流子之间的库仑斥力之间的相互作用造成的。我们利用半解析模型对不同类型晶体管的这种效应进行了定量评估，并发现了法诺因子 F=S/SPoisson 与栅极偏压的函数关系，这使我们能够在实验中寻找这种效应的特征。

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来源期刊

Physical Review Applied PHYSICS, APPLIED-

CiteScore

7.80

自引率

8.70%

发文量

760

审稿时长

2.5 months

期刊介绍： Physical Review Applied (PRApplied) publishes high-quality papers that bridge the gap between engineering and physics, and between current and future technologies. PRApplied welcomes papers from both the engineering and physics communities, in academia and industry. PRApplied focuses on topics including: Biophysics, bioelectronics, and biomedical engineering, Device physics, Electronics, Technology to harvest, store, and transmit energy, focusing on renewable energy technologies, Geophysics and space science, Industrial physics, Magnetism and spintronics, Metamaterials, Microfluidics, Nonlinear dynamics and pattern formation in natural or manufactured systems, Nanoscience and nanotechnology, Optics, optoelectronics, photonics, and photonic devices, Quantum information processing, both algorithms and hardware, Soft matter physics, including granular and complex fluids and active matter.