DocumentCode
47934
Title
Mapping of Radiation-Induced Resistance Changes and Multiple Conduction Channels in 
Memristors
Author
Hughart, David R. ; Pacheco, Jose L. ; Lohn, Andrew J. ; Mickel, Patrick R. ; Bielejec, Edward ; Vizkelethy, Gyorgy ; Doyle, Barney L. ; Wolfley, Steven L. ; Dodd, Paul E. ; Shaneyfelt, Marty R. ; McLain, Michael L. ; Marinella, Matthew J.
Author_Institution
Sandia Nat. Labs., Albuquerque, NM, USA
Volume
61
Issue
6
fYear
2014
fDate
Dec. 2014
Firstpage
2965
Lastpage
2971
Abstract
The locations of conductive regions in TaOx memristors are spatially mapped using a microbeam and Nanoimplanter by rastering an ion beam across each device while monitoring its resistance. Microbeam irradiation with 800 keV Si ions revealed multiple sensitive regions along the edges of the bottom electrode. The rest of the active device area was found to be insensitive to the ion beam. Nanoimplanter irradiation with 200 keV Si ions demonstrated the ability to more accurately map the size of a sensitive area with a beam spot size of 40 nm by 40 nm. Isolated single spot sensitive regions and a larger sensitive region that extends approximately 300 nm were observed.
Keywords
electric resistance; memristors; nanoelectronics; resistive RAM; semiconductor materials; tantalum compounds; Si ions; TaOx; active device area; beam spot size; bottom electrode; conductive regions; electron volt energy 200 keV; electron volt energy 800 keV; isolated single spot sensitive regions; memristors; microbeam irradiation; multiple conduction channels; nanoimplanter irradiation; radiation-induced resistance; resistance monitoring; size 40 nm; Electrical resistance measurement; Memristors; Radiation effects; Resistance; Displacement damage; Nanoimplanter; RRAM; memristor; microbeam; radiation effects; resistive memory; tantalum;
fLanguage
English
Journal_Title
Nuclear Science, IEEE Transactions on
Publisher
ieee
ISSN
0018-9499
Type
jour
DOI
10.1109/TNS.2014.2365139
Filename
6962909
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