@article { 5548377,
title = {Effects of quasi-ballistic base transport on the high-frequency characteristics of bipolar transistors},
journal = {IEEE Trans. Electron Devices (USA)},
volume = {44},
number = {4},
year = {1997},
note = {bipolar transistors;high-frequency characteristics;quasi-ballistic base transport;minority-carrier scattering length;Grinberg-Luryi approach;Boltzmann transport equation;phase angle;dynamic distribution function;common-base current gain;ballistic decay mechanism;forward characteristics;intrinsic transit frequency;Thomas-Moll expressions;one-flux approach;reverse small-signal parameters;moving boundary condition;scattering parameters;},
pages = {618 - 26},
type = {article},
abstract = {High-frequency transport in bipolar transistors with quasi-ballistic base widths (on the order of a minority-carrier scattering length) is examined by using the approach of Grinberg and Luryi (1992) to solve the Boltzmann transport equation (BTE). By considering the phase angle of the dynamic distribution function in wave-vector space, it is shown that the ballistic mechanism of decay in the common-base current gain becomes important even for base widths in the quasi-ballistic regime. Simple expressions, which correctly yield both the magnitude and phase of all the forward characteristics, as predicted by the BTE, up to the intrinsic transit frequency, are found by combining the results from a one-flux approach with the well-known expressions of Thomas and Moll (1958). Expressions for the reverse small-signal parameters are also found by applying a “moving boundary condition” to the basic one-flux equations of Shockley (1962)},
keywords = {Boltzmann equation;microwave bipolar transistors;minority carriers;S-parameters;semiconductor device models;},
URL = {http://dx.doi.org/10.1109/16.563367},
author = { Vaidyanathan, M. and Pulfrey, D.L.}
}