Influence of the magnetic field on dielectric breakdown in memristors based on h-BN stacks

2020 IEEE International Reliability Physics Symposium (IRPS) Pub Date : 2020-04-01 DOI:10.1109/IRPS45951.2020.9128325
D. Maldonado, J. Roldán, A. Roldán, F. Jiménez-Molinos, F. Hui, Y. Shi, X. Jing, Chao Wen, M. Lanza
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Abstract

Here we present a characterization study of Au/hBN/Au/Ti memristors when exposed to controlled magnetic field (MF) perpendicular to the device main vertical axis. The main switching parameters, i.e. set and reset voltages and currents, have been extracted and the influence of the MF on them (and on the resistive switching operation) has been analyzed. We observed that the set voltage values decrease with the MF, also the variability linked to the reset voltage is reduced. A similar effect is seen on the reset current, which shows a decrease due to the MF presence. These effects are linked to the reduction of the effective conductive filament section due to the influence of Lorentz force on the current lines.
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磁场对h-BN堆叠型忆阻器介质击穿的影响
本文研究了Au/hBN/Au/Ti忆阻器暴露在垂直于器件主垂直轴的受控磁场(MF)下的特性。提取了主要开关参数,即定值电压和复位电压和电流,并分析了中频对它们(以及对电阻开关操作)的影响。我们观察到,设定电压值随着MF的减小而减小,与重置电压相关的可变性也减小了。在复位电流上可以看到类似的效果,由于中频存在,复位电流减小。这些效应与由于洛伦兹力对电流线的影响而导致的有效导电丝截面的减小有关。
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2020 IEEE International Reliability Physics Symposium (IRPS)
2020 IEEE International Reliability Physics Symposium (IRPS)
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