噪音

IF 1.1 Q4 QUANTUM SCIENCE & TECHNOLOGY

Semiconductor Physics Quantum Electronics & Optoelectronics Pub Date : 2020-09-24 DOI:10.1093/oso/9780198759867.003.0016

Sandip Tiwari

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引用次数: 0

摘要

本章研究噪声，这是工作中的原因和机会的另一个例子，也是随机事件引起的响应中的统计波动的一个例子。讨论了理解嵌入信号中的随机性的方法以及遍历行为的概念、自相关和Wiener-Khintchin定理的使用。通过对散射作用下板间电荷输运的研究，分析了半导体中的波动和噪声。强调了共振中的量子和热力学联系。推导出奈奎斯特关系，一个非常普遍的关系。研究了有限通道下的分区热噪声，并讨论了散粒噪声。分析了电荷捕获和去捕获过程中以随机电报噪声形式产生的低频噪声。参数中的噪声——例如电阻——可能是由多重相互作用引起的。这方面的一个例子是由于迁移率和载流子波动引起的电阻波动，这在许多材料中可以通过Hooge参数来参数化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Noise

This chapter examines noise, another example of cause and chance at work, and an example of the statistical fluctuations in the response arising from random events. Approaches to understanding randomness embedded in signals are discussed along with the notion of ergodic behavior, autocorrelation and the use of the Wiener-Khintchin theorem. Fluctuations and noise in semiconductors are analyzed by exploring charge transport between plates under scattering. The quantum and thermodynamic links at resonance are emphasized. The Nyquist relationship, a very general relationship, is derived. Partition thermal noise under limited channels is explored, and shot noise is discussed. Low frequency noise arising as random telegraph noise due to charge trapping and detrapping is analyzed. Noise in a parameter—resistance, for example—can be due to multiple interactions. An example of this is resistance fluctuation due to mobility and carrier fluctuations, which in many materials can be parameterized through the Hooge parameter.

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来源期刊

Semiconductor Physics Quantum Electronics & Optoelectronics QUANTUM SCIENCE & TECHNOLOGY-

CiteScore

1.80

自引率

22.20%

发文量

审稿时长

15 weeks