Semiconductors are hard enough to describe with elaborate mathematical tools, is a physical model too much to ask? [Chuck] has designed, printed and explained the workings of a BJT transistor ...

This course presents in-depth discussion and analysis of metal-oxide-semiconductor field-effect transistors (MOSFETs ... and charge distribution for MOS in inversion, Quantitative model and relevant ...

"Modeling is at the heart of any modern design process and improvements in transistor modeling have made a significant, but often unrecognized, contribution to the wireless revolution impacting our ...

An IIT Bombay professor has been honored for his chip reliability research. Professor Souvik Mahapatra developed the ...

In MOS transistors, the carriers flow near the semiconductor interface with the oxide, and extra scattering mechanisms at the interface lower the mobility of the carriers of the inversion layer ...

So What Was the Transistor Good For? Transistors may have been useful to the phone company and to a handful of scientists building computers, but that wasn't enough to build an industry.

After the transistor was invented, Pearson continued to work with Shockley to develop an improved model. One of Pearson's crucial contributions was to build thin semiconductor filaments less than ...

Section 3.3 covers MOS transistors and modeling. It should be noted that it relies to some degree on the previous material presented in Section 3.2, where depletion capacitance is covered. Section 3.5 ...

The continuous scaling of transistors in the last half of century has been the ... The book provides a description of the recent development of theory, modeling, and simulation of nanotransistors for ...