DocumentCode
2362365
Title
Characterizing magnetic field-coupled computing devices by the Extraordinary Hall-effect
Author
Becherer, M. ; Kiermaier, J. ; Csaba, G. ; Rezgani, J. ; Yilmaz, C. ; Osswald, P. ; Lugli, P. ; Schmitt-Landsiedel, D.
Author_Institution
Lehrstuhl fur Tech. Elektron., Tech. Univ. Munchen, Munich, Germany
fYear
2009
fDate
14-18 Sept. 2009
Firstpage
105
Lastpage
108
Abstract
A submicron sized extraordinary Hall-effect (EHE) sensor for read-out of field-coupled computing devices is presented. The applied sensing structure is suitable to electrically probe the output states of field-coupled magnetic logic gates. Furthermore it reveals details on the magnetic properties of submicron-scale single-domain dots. A `split-current´ architecture is chosen, where Hall-sensing takes place in a single lateral direction, in order to keep field-coupling to adjacent nanomagnets undisturbed. By focused ion beam (FIB) irradiation, the magnetic properties of Co/Pt multilayers are tailored to define both the switching field and the geometry of nanomagnetic dots. From angular measurements we conclude, that the reversal mechanism of the FIB patterned magnetic dots remains to be domain-wall driven. The sensor is a main component needed for integration of nanomagnetic computing units embedded into microelectronic systems.
Keywords
Hall effect; cobalt; focused ion beam technology; integrated circuits; logic gates; magnetic devices; magnetic domain walls; magnetic multilayers; nanostructured materials; platinum; sensors; Co-Pt; FIB patterned magnetic dots; adjacent nanomagnets; domain-wall driven; extraordinary Hall-effect sensor; field-coupled computing devices; field-coupled magnetic logic gates; focused ion beam irradiation; magnetic field-coupled computing devices; microelectronic systems; multilayers; nanomagnetic computing; nanomagnetic dots; sensing structure; single lateral direction; split-current architecture; submicron-scale single-domain dots; switching field; Computer architecture; Ion beams; Logic devices; Logic gates; Magnetic fields; Magnetic properties; Magnetic sensors; Magnetosphere; Probes; Sensor phenomena and characterization;
fLanguage
English
Publisher
ieee
Conference_Titel
Solid State Device Research Conference, 2009. ESSDERC '09. Proceedings of the European
Conference_Location
Athens
ISSN
1930-8876
Print_ISBN
978-1-4244-4351-2
Electronic_ISBN
1930-8876
Type
conf
DOI
10.1109/ESSDERC.2009.5331551
Filename
5331551
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