General adjoint approach to the physics-based noise modeling of semiconductor devices through Langevin sources

被引:0
|
作者
Huang, Mingwei [1 ]
Mayergoyz, Isaak [1 ]
Andrei, Petru [2 ]
机构
[1] Department of Electrical and Computer Engineering, UMIACS, University of Maryland, College Park, MD 20742
[2] Department of Electrical and Computer Engineering, Florida State University, Florida A and M University, Tallahassee, FL 32310
来源
Journal of Applied Physics | 2007年 / 101卷 / 01期
关键词
A general approach to the numerical analysis of noise in physics-based semiconductor devices is proposed. This approach is based on the Riesz representation theorem and can be applied to most partial-differential-equation- based semiconductor device models. Explicit expressions of Green's functions for both open-circuit and short-circuit configurations are provided. Our approach is conceptually simpler than Branin's method developed through the network analogy and it is flexible in the sense that it can be applied to any network configuration without additional matrix transformations. Numerical results of the noise in short-channel metal-oxide-semiconductor field-effect transistors and 4H-Si metal-semiconductor field-effect transistors are presented and discussed. © 2007 American Institute of Physics;
D O I
暂无
中图分类号
学科分类号
摘要
Journal article (JA)
引用
收藏
相关论文
共 50 条
  • [31] NA Unified Approach to the Sensitivity and Variability Physics-Based Modeling of Semiconductor Devices Operated in Dynamic Conditions-Part I: Large-Signal Sensitivity
    Guerrieri, Simona Donati
    Bonani, Fabrizio
    Bertazzi, Francesco
    Ghione, Giovanni
    IEEE TRANSACTIONS ON ELECTRON DEVICES, 2016, 63 (03) : 1195 - 1201
  • [32] A Physics-Based Modeling Approach for Performance Monitoring in Gas Turbine Engines
    Hanachi, Houman
    Liu, Jie
    Banerjee, Avisekh
    Chen, Ying
    Koul, Ashok
    IEEE TRANSACTIONS ON RELIABILITY, 2015, 64 (01) : 197 - 205
  • [33] A novel approach to the electro-thermal sensitivity analysis of electron devices through efficient physics-based simulations
    Guerrieri, S. Donati
    Bonani, F.
    Ghione, G.
    INTERNATIONAL WORKSHOP ON INTEGRATED NONLINEAR MICROWAVE AND MILLIMETRE-WAVE CIRCUITS (INMMIC), 2018,
  • [34] A new physics-based modeling approach for tsunami-ionosphere coupling
    Meng, X.
    Komjathy, A.
    Verkhoglyadova, O. P.
    Yang, Y. -M.
    Deng, Y.
    Mannucci, A. J.
    GEOPHYSICAL RESEARCH LETTERS, 2015, 42 (12) : 4736 - 4744
  • [35] Integrating physics-based models with sensor data: An inverse modeling approach
    Hong, Tianzhen
    Lee, Sang Hoon
    BUILDING AND ENVIRONMENT, 2019, 154 : 23 - 31
  • [36] Green's functions approach to mos physics-based compact noise modelling
    Bonani, F.
    Guerrieri, S. Donati
    Ghione, G.
    FLUCTUATION AND NOISE LETTERS, 2001, 1 (01): : R51 - R63
  • [37] Physics-Based Noise Modeling and Deep Learning for Denoising Permanently Shadowed Lunar Images
    Pan, Haiyan
    Chen, Binbin
    Zhou, Ruyan
    APPLIED SCIENCES-BASEL, 2025, 15 (05):
  • [38] A Unified Approach to the Sensitivity and Variability Physics-Based Modeling of Semiconductor Devices Operated in Dynamic Conditions. Part II-Small-Signal and Conversion Matrix Sensitivity
    Guerrieri, Simona Donati
    Bonani, Fabrizio
    Bertazzi, Francesco
    Ghione, Giovanni
    IEEE TRANSACTIONS ON ELECTRON DEVICES, 2016, 63 (03) : 1202 - 1208
  • [39] Physics-Based Practical Speckle Noise Modeling for Optical Coherence Tomography Image Denoising
    Yang, Lei
    Wu, Di
    Gao, Wenteng
    Xu, Ronald X.
    Sun, Mingzhai
    PHOTONICS, 2024, 11 (06)
  • [40] White Noise Characterization of N-MOSFETs for Physics-Based Cryogenic Device Modeling
    Ohmori, K.
    Amakawa, S.
    2021 5TH IEEE ELECTRON DEVICES TECHNOLOGY & MANUFACTURING CONFERENCE (EDTM), 2021,
12345