9 October 2012Signal propagation in dipole coupled nanomagnets for logic applications
David Carlton, Brian Lambson, Zheng Gu, Scott Dhuey, Li Gao, Brian Hughes, Deirdre Olynick, Charles Rettner, Andreas Scholl, Brian Youngblood, Anthony Young, Ilya Krivorotov, Stuart Parkin, Jeffrey Bokor
David Carlton,1 Brian Lambson,2 Zheng Gu,2 Scott Dhuey,1 Li Gao,3 Brian Hughes,3 Deirdre Olynick,1 Charles Rettner,3 Andreas Scholl,1 Brian Youngblood,4 Anthony Young,1 Ilya Krivorotov,4 Stuart Parkin,3 Jeffrey Bokor2
1Lawrence Berkeley National Lab. (United States) 2Univ. of California, Berkeley (United States) 3IBM Almaden Research Ctr. (United States) 4Univ. of California, Irvine (United States)
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As conventional Silicon-based transistors reach their scaling limits, novel devices for performing computations have
emerged as alternatives to continue the improvements in information technology that have benefited society over the
past 40 years. One candidate that has shown great promise recently is a device that performs logical computations using
dipole coupled nanomagnets. In this paper, we discuss recent advances that have led to a greater understanding of signal
propagation in nanomagnet arrays. In particular, we highlight recent experimental work towards the imaging of a
propagating magnetic cascade.
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David Carlton, Brian Lambson, Zheng Gu, Scott Dhuey, Li Gao, Brian Hughes, Deirdre Olynick, Charles Rettner, Andreas Scholl, Brian Youngblood, Anthony Young, Ilya Krivorotov, Stuart Parkin, Jeffrey Bokor, "Signal propagation in dipole coupled nanomagnets for logic applications," Proc. SPIE 8461, Spintronics V, 84610W (9 October 2012); https://doi.org/10.1117/12.930776