Nanowerk News (July 10) -- A recent study led by MatSE professor David Cahill, provides new insights on the physical mechanisms governing the interplay of spin and heat at the nanoscale, and addresses the fundamental limits of ultrafast spintronic devices for data storage and information processing. Also: R & D Magazine (July 10), Phys.Org (July 10), ScienceBlog (July 10).
A recent study by researchers at the University of Illinois at Urbana-Champaign provides new insights on the physical mechanisms governing the interplay of spin and heat at the nanoscale, and addresses the fundamental limits of ultrafast spintronic devices for data storage and information processing. - See more at: http://engineering.illinois.edu/news/article/8671#sthash.ohbRLZRy.dpuf