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September 17, 2008

Mtg: Patterned Nanomagnetic Bits and Devices

by @ 2:55 pm. Filed under ALL, Computers/Software, Electronics Design, NanoEngineering, Semiconductors
 

FRIDAY September 19, 2008
OEB Magnetics Chapter
Speaker: Bruce D. Terris, manager of Nanostructures Group, Hitachi Global Storage Technologies
Time: 1:00 PM
Cost: none
Place: Lawrence Berkeley Natl Lab, Bldg 6-2202, Berkeley
RSVP: Please respond by email with name, company, to Peter Fischer, PJFischer@lbl.gov by Sep 15
Web: ewh.ieee.org/r6/oeb/mag

As conventional magnetic recording technology extends to ever higher areal density, it is possible the often predicted, and constantly increasing, density limit will be reached. This limit will likely be in the range of 750 to 1000 Gb/in2. The use of nanofabrication to create patterned magnetic elements, or patterned media, is one of the proposed approaches with the promise of delaying the onset of superparamagnetism and thus enabling higher areal density.

I will discuss many of the challenges that must be overcome for patterned media to be successful, including fundamental physics and materials science problems, new fabrication technologies, nanometer-scale manufacturing tolerances, and low cost budgets.

One of these challenges is to controllably reverse one magnetic element, or bit, without affecting neighboring elements. A narrow anisotropy distribution will be required, yet data suggest that as the element size shrinks, their distribution widens. This distribution arises from a number of sources, including shape and size distributions, edge effects, variation in the full film anisotropy, and magnetostatic fields from neighboring elements. As will be discussed, understanding and controlling the switching properties of magnetic nanostructures is critical not only for patterned media, but for device applications such as magnetic random access memory (MRAM) cells and spintronic devices and for current-induced as well as fieldinduced reversal.

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