MOSfet Homework Assignment - Role of Dielectric Constant and Thickness

By David K. Ferry

Arizona State University

Licensed under Creative Commons.

Category

Teaching Materials

Published on

Abstract

Use the MOSfet tool on nanoHUB to simulate a n-channel MOSFET with the following parameters:

Lsd=LG=45nm (each 15 nodes), oxide thickness of 1.2 nm (K=3.9, 5 nodes),
poly-Si gate, junction depth of 10 nm (20 nodes), and all other parameters
at their nominal preset values.

Now, change K to 20, and the oxide thickness to 6 nm, and resimulate the
device.

How do the Id vs. VG and Id vs. VD curves compare? (Hint: You need to go into the 'voltage sweep section' and turn on the Id-Vd sweep.)

The point of the problem is to realize that you can't get the same performance just by increasing the dielectric constant and the thickness--one has to make some other changes as well if you want the same currents from the device.

Cite this work

Researchers should cite this work as follows:

  • David K. Ferry (2008), "MOSfet Homework Assignment - Role of Dielectric Constant and Thickness," https://nanohub.org/resources/3948.

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Tags

  1. dielectric function
  2. MOS
  3. MOSFET
  4. nanoelectronics