Add to ORKGWe present an analytical procedure to perform the local noise analysis of a semiconductor junction when both the drift and diffusive parts of the current are important. The method takes into account space-inhomogeneous and hot-carriers conditions in the framework of the drift-diffusion model, and it can be effectively applied to the local noise analysis of different devices: n+nn+ diodes, Schottky barrier diodes, field-effect transistors, etc., operating under strongly inhomogeneous distributions of the electric field and charge concentratio
In this paper, flicker noise behavior of lateral non-uniformly doped MOSFET is studied using impedan...
Abstract-This survey deals with l/f noise in homogeneous semiconductor samples. A distinction is mad...
A two-dimensional technique for the physical noise majority-carrier modeling of GaAs MESFETs is pres...
We present an analytical procedure to perform the local noise analysis of a semiconductor junction w...
A theoretical model for the noise properties of n+nn+ diodes in the drift-diffusion framework is pre...
A theoretical model for the noise properties of Schottky barrier diodes in the framework of the ther...
A novel, two-dimensional technique for the physical noise modeling of monopolar devices, based on th...
An analytical theory to describe the combined effects of the epitaxial layer thickness and the ohmic...
The book presents a comprehensive treatment of the numerical simulation of semiconductor devices. Af...
We present a microscopic analysis of electronic noise in semiconductor unipolar structures based on ...
The authors present a computationally efficient unified approach to the numerical simulation of sens...
Abstract-Two numerical models based on the impedance field method have been implemented to investiga...
Electronic noise, despite being a limiting factor in many applications of semiconductor devices and ...
International audienceTheories on linear white noise sources such as thermal noise or shot noise are...
L'étude à faible polarisation d'une diode n+nn+ GaAs à profil de dopage réel montre, par comparaison...
In this paper, flicker noise behavior of lateral non-uniformly doped MOSFET is studied using impedan...
Abstract-This survey deals with l/f noise in homogeneous semiconductor samples. A distinction is mad...
A two-dimensional technique for the physical noise majority-carrier modeling of GaAs MESFETs is pres...
We present an analytical procedure to perform the local noise analysis of a semiconductor junction w...
A theoretical model for the noise properties of n+nn+ diodes in the drift-diffusion framework is pre...
A theoretical model for the noise properties of Schottky barrier diodes in the framework of the ther...
A novel, two-dimensional technique for the physical noise modeling of monopolar devices, based on th...
An analytical theory to describe the combined effects of the epitaxial layer thickness and the ohmic...
The book presents a comprehensive treatment of the numerical simulation of semiconductor devices. Af...
We present a microscopic analysis of electronic noise in semiconductor unipolar structures based on ...
The authors present a computationally efficient unified approach to the numerical simulation of sens...
Abstract-Two numerical models based on the impedance field method have been implemented to investiga...
Electronic noise, despite being a limiting factor in many applications of semiconductor devices and ...
International audienceTheories on linear white noise sources such as thermal noise or shot noise are...
L'étude à faible polarisation d'une diode n+nn+ GaAs à profil de dopage réel montre, par comparaison...
In this paper, flicker noise behavior of lateral non-uniformly doped MOSFET is studied using impedan...
Abstract-This survey deals with l/f noise in homogeneous semiconductor samples. A distinction is mad...
A two-dimensional technique for the physical noise majority-carrier modeling of GaAs MESFETs is pres...