Events
Wednesday February 24, 2010
Start: 2010-02-24 16:00
End: 2010-02-24 17:00
Bill Cowell is a PhD candidate in John Wager's group in Electrical Engineering. His talk will focus on tunneling devices built at OSU that use amorphous metal technology to achieve ultra-thin tunnel barriers.
http://eecs.oregonstate.edu/matdev/students.html
Friday February 26, 2010
Start: 2010-02-26 13:00
End: 2010-02-26 13:50
This seminar is offered for 1 credit as Introduction to Research, PH607, Section 4, CRN 24127. It is scheduled in Winter term only! New graduate students and graduate students who have not joined a research group should register for credit. Drop-ins by other interested parties are welcome.
Friday March 05, 2010
Start: 2010-03-05 13:00
End: 2010-03-05 13:50
This seminar is offered for 1 credit as Introduction to Research, PH607, Section 4, CRN 24127. It is scheduled in Winter term only! New graduate students and graduate students who have not joined a research group should register for credit. Drop-ins by other interested parties are welcome.
Monday March 08, 2010
Start: 2010-03-08 15:40
End: 2010-03-08 17:00
3.40pm Ali
4.00pm Andriy
4.20pm Matt Leyden
4.40pm Suko
Wednesday March 10, 2010
Start: 2010-03-10 15:40
End: 2010-03-10 17:20
3.40 Seongweon
4.00 Annette
4.20 Andy Jameson
4.40 Faye
5.00 Denny
Friday March 12, 2010
Start: 2010-03-12 13:00
End: 2010-03-12 13:50
This seminar is offered for 1 credit as Introduction to Research, PH607, Section 4, CRN 24127. It is scheduled in Winter term only! New graduate students and graduate students who have not joined a research group should register for credit. Drop-ins by other interested parties are welcome.
Monday March 15, 2010
Start: 2010-03-15 09:00
End: 2010-03-15 10:00
In spin transfer devices a dc electric current is capable of exciting stable precession states of the magnetic moment. These auto-oscillations are powered by the current source and were found to have many remarkable properties, e.g., very narrow line widths. Precession regimes are thought to be useful for engineering nano-generators of microwave power on a chip.
Tuesday March 16, 2010
Start: 2010-03-16 15:00
End: 2010-03-16 16:00
Thermal chemical vapor deposition was used to grow graphene on copper substrates [1] and isotopic labeling (13C vs 12C [2]) was used to study how graphene grows on Cu [3]. Graphene holds potential as a transparent electrically conductive thin film [4a, b, c] and for electrical energy storage (e.g.,,graphene-based ultracapacitors [5]). Our top-down approaches [6,7] were the first to target obtaining individual layers of graphite obtained by micromechanical exfoliation.
