Multivariate analysis and extraction of parameters in resistive RAMs using the Quantum Point Contact model

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URI: http://hdl.handle.net/10481/71547
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Author
Roldán Aranda, Juan Bautista; Miranda, E.; González Cordero, Gerardo; García Fernández, Pedro; Romero Zaliz, Rocio Celeste; González Rodelas, Pedro; Aguilera Del Pino, Ana María; González, M. B.; Jiménez Molinos, Francisco
Editorial
AIP Publishing
Materia
Resistive switching memory
 
RRAM
 
Quantum Point Contact Model
 
Conductive filaments
 
Parameter extraction
 
Date
2018-01-02
Referencia bibliográfica
J. B. Roldan, E. Miranda, G. Gonzalez-Cordero, P. García- Fernández, R. Romero-Zaliz, P. González-Rodelas, A. M. Aguilera, M.B. González, F. Jiménez-Molinos. “Multivariate analysis and extraction of parameters in resistive RAMs using the Quantum Point Contact model” Journal of Applied Physics, 2018, 123, 014501. DOI: 10.1063/1.5006995
Sponsorship
Spanish Ministry of Economy and Competitiveness TEC2014-52152-C3-2-R , MTM2013-47929-P (also supported by the FEDER program); IMB-CNM Spanish Ministry of Economy and Competitiveness TEC2014-52152-C3-1-R and TEC2014-54906-JIN (supported by the FEDER program); ENIAC Joint Undertaking-PANACHE project.; Spanish ICTS Network MICRONANOFABS
Abstract
A multivariate analysis of the parameters that characterize the reset process in RRAMs has been performed. The different correlations obtained can help to shed light on the current components that contribute in the Low Resistance State (LRS) of the technology considered. In addition, a screening method for the Quantum Point Contact (QPC) current component is presented. For this purpose the second derivative of the current has been obtained using a novel numerical method which allows determining the QPC model parameters. Once the procedure is completed, a whole RS series of thousands of curves is studied by means of a genetic algorithm. The extracted QPC parameter distributions are characterized in depth to get information about the filamentary pathways associated with LRS in the low voltage conduction regime.
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