Milo, "..here are some more detail links. yes I know you don't need them. I was posting for Lurkers."
Thank you, these links are somewhat better. The problem is
that these levels of "presentation" may create a false
impression of simplicity. I'll tell you: the Intel level
is total BS. Your new links are at basic introductory
level for technicians. The Britney physics guide is
kind of to start with. Unfortunately, we are talking
here about things two-three levels higher, about complex
field geometries and pure materials to operate in
100kV/cm fields. It is not even about applying
known engineering formulas, it is a real frontier
of device physics, with heavy chemistry and material
science.
I am very sorry that things are not so simple
as those three-four web pages. I am not sure about
"Lurkers", but even I, being a professional in certain
fields of physics, mathematics, and recently
electronics, am having
difficulties to comprehend the scope of problems
behind the leakage effect, especially when not working
in this field, and without any fab information.
I can only ascertain the fact of
excessive leakage in Intel devices, that's it.
"You seem to always want to teach people"
Sorry, old professional habits. I promise to improve
myself and behave better ;-)
- Ali
PS: I think it is possible to start with this:
google.com
and look into something like this:
www-device.eecs.berkeley.edu
plus something related to this:
ate.agilent.com
Or the closest so far:
www-3.ibm.com |
