User:John R. Brews: Difference between revisions

Revision as of 17:17, 15 December 2010

I am a Professor Emeritus of Electrical Engineering from The University of Arizona, where I taught device physics and circuit design for just under two decades. Previously, I was a research scientist for twenty-odd years at Bell Laboratories, Murray Hill, doing theoretical work in the areas of solid-state physics and device physics. I also am a Fellow of the IEEE, and a recipient of the Electron Device Society distinguished service award for work as Editor-in-chief of the journal IEEE Electron Device Letters, founded by Nobel prize winner George E. Smith. I've published a number of technical books and papers, some of which may be found at this link.

Images

Some of my images so far

(CC) Image: John R. Brews

B-field lines near uniformly magnetized sphere; because B is solenoidal, field lines are closed

(CC) Image: John R. Brews

Magnetic flux density vs. magnetic field in steel and iron; the curve depends upon the direction of traversal, the phenomenon of hysteresis

@@ Line 5: / Line 5: @@
 [[Category:CZ Authors|Brews, John R.]][[Category:Astronomy Authors|Brews, John R.]] [[Category:Earth Sciences Authors|Brews, John R.]] [[Category:Engineering Authors|Brews, John R.]] [[Category:Mathematics Authors|Brews, John R.]] [[Category:Physics Authors|Brews, John R.]]
 {{DEFAULTSORT:Brews, John R.}}
+==Images==
+{{Gallery-mixed
+|caption=Some of my images so far
+|width=200
+|lines=6
+|Magnetized sphere.PNG|'''B'''-field lines near uniformly magnetized sphere; because '''B''' is solenoidal, field lines are closed
+|Hysteresis loops.PNG|Magnetic flux density vs. magnetic field in steel and iron; the curve depends upon the direction of traversal, the phenomenon of [[hysteresis]]
+}}

User:John R. Brews: Difference between revisions

Revision as of 17:17, 15 December 2010

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