Nanoelectronics and the Meaning of Resistance
The purpose of this series of lectures is to introduce the "bottom-up" approach to nanoelectronics using concrete examples. No prior knowledge of quantum mechanics or statistical mechanics is assumed; however, familiarity with matrix algebra will be …
Audio podcast
Video podcast
Slides/Notes podcast
Licensed under Creative Commons according to this deed.
Anonymous said:
No comment.
Shiv Akarsh said:
0 0 PLG_RESOURCES_REVIEWS_LOGIN_TO_VOTE The best lecture series ever. Covers a gamut of current day research topics like thermal effects, quantum hall effects and other spin effects etc. Datta gives a very gud lead from where researchers could take off and explore more on such cutting edge topics...
Report abuse | Reply to Shiv Akarsh
Tony Low Aik Seng said:
0 0 PLG_RESOURCES_REVIEWS_LOGIN_TO_VOTE These lectures are extremely insightful, through to the style of employing simple model to illustrate the profound physics at play, especially the example of using the spin impurity to illustrate decoherence and information lost is intriguing. Looking forward to the online videos...
Report abuse | Reply to Tony Low Aik Seng
A N M Zainuddin said:
0 0 PLG_RESOURCES_REVIEWS_LOGIN_TO_VOTE The matlab codes that are coming with it (''Exercises Handout'') are very useful for following the lectures.
Report abuse | Reply to A N M Zainuddin
Ahmad Ehteshamul Islam said:
0 0 PLG_RESOURCES_REVIEWS_LOGIN_TO_VOTE Excellent lectures, as usual.
There were some updates in the class lectures. Hope this will be incorporated soon.
Report abuse | Reply to Ahmad Ehteshamul Islam
Deepanjan Datta said:
0 0 PLG_RESOURCES_REVIEWS_LOGIN_TO_VOTE These lecture slides are excellent...especially spintronics portions are really useful for enhancing knowledge and research.
Report abuse | Reply to Deepanjan Datta