Open Access. Powered by Scholars. Published by Universities.®

Engineering Commons

Open Access. Powered by Scholars. Published by Universities.®

Electrical and Computer Engineering

External Link

Selected Works

2012

Silicon

Articles 1 - 3 of 3

Full-Text Articles in Engineering

A Long-Channel Model For The Asymmetric Double-Gate Mosfet Valid In All Regions Of Operation, Abhishek Kammula, Bradley Minch Jul 2012

A Long-Channel Model For The Asymmetric Double-Gate Mosfet Valid In All Regions Of Operation, Abhishek Kammula, Bradley Minch

Bradley Minch

We present a physically based, continuous analytical model for long-channel double-gate MOSFETs. The model is particularly well suited for implementation in circuit simulators due to the simple expressions for the current andthe continuous nature of the derivatives of the current which improves convergence behavior.

Go to article

Analyses Of Electroluminescence Spectra Of Silicon Junctions In Avalanche Breakdown Using An Indirect Interband Recombination Model, David Kerns, Sherra Kerns, M Lahbabi, A Ahaitouf, E Abarkan, M Fliyou, A Hoffmann, J Charles, Bharat Bhuva Apr 2012

Analyses Of Electroluminescence Spectra Of Silicon Junctions In Avalanche Breakdown Using An Indirect Interband Recombination Model, David Kerns, Sherra Kerns, M Lahbabi, A Ahaitouf, E Abarkan, M Fliyou, A Hoffmann, J Charles, Bharat Bhuva

Sherra E. Kerns

Light emission from a p-n junction biased in avalanche breakdown has been modeled over the range 1.4–3.4 eV. The model emphasizes indirect interband processes and Si self-absorption. Comparisons between measured and simulated spectra for sample junctions from multiple devices demonstrate that the model is simple, accurate, and consistent with fundamental physical device characteristics.

Go to article

Analyses Of Electroluminescence Spectra Of Silicon Junctions In Avalanche Breakdown Using An Indirect Interband Recombination Model, David Kerns, Sherra Kerns, M Lahbabi, A Ahaitouf, E Abarkan, M Fliyou, A Hoffmann, J Charles, Bharat Bhuva Apr 2012

Analyses Of Electroluminescence Spectra Of Silicon Junctions In Avalanche Breakdown Using An Indirect Interband Recombination Model, David Kerns, Sherra Kerns, M Lahbabi, A Ahaitouf, E Abarkan, M Fliyou, A Hoffmann, J Charles, Bharat Bhuva

David V. Kerns

Light emission from a p-n junction biased in avalanche breakdown has been modeled over the range 1.4–3.4 eV. The model emphasizes indirect interband processes and Si self-absorption. Comparisons between measured and simulated spectra for sample junctions from multiple devices demonstrate that the model is simple, accurate, and consistent with fundamental physical device characteristics.

Go to article