B. Govoreanu, D. Crotti, S. Subhechha, Leqi Zhang, Y. Chen, S. Clima, Vasile Paraschiv, H. Hody, Christoph Adelmann, M. Popovici, O. Richard, Malgorzata Jurczak
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引用次数: 36
摘要
我们展示了一种自整流,无顺应性,BEOL cmos兼容,电阻开关存储器件,具有非丝状开关机制,无形成操作,模拟开关行为和优异的器件间操作均匀性,小到最小的器件尺寸。电池的复位开关电流密度为~0.3MA/cm2(和~10倍低设置电流)。这相当于在40nm尺寸的电池中~5uA的复位电流,在20nm尺寸的电池中投射到1uA。开关电流可通过工艺和结构单元设计来调节。电池可以在±7V以下,短至10ns的脉冲下工作。循环时间至少为106cy,保留时间为55°C/3年,有明确的进一步改进路径。这些关键特性是通过使用非晶硅(a- si)阻挡层实现的,该阻挡层在双层a- si /TiO2活性堆叠中充当半绝缘的氧气清除剂,能够提供非线性IV电池特性,并在开关层中诱导大的氧空位密度。
A-VMCO: A novel forming-free, self-rectifying, analog memory cell with low-current operation, nonfilamentary switching and excellent variability
We demonstrate a self-rectifying, compliance-free, BEOL CMOS-compatible, resistive switching memory device, with nonfilamentary switching mechanism, forming-free operation, analog switching behavior and excellent device to device operation uniformity, down to the smallest device size. The cells have a reset switching current density of ~0.3MA/cm2 (and ~10× lower set current). This corresponds to ~5uA reset current in a 40nm-size cell, projecting down to 1uA for a 20nm-size. The switching currents are tunable by process and structural cell design. The cells can be operated with pulses as short as 10ns, at below ±7V. Cycling for at least 106cy and retention of 55°C/3yr are demonstrated, with clear paths for further improvement. These key features are enabled by the use of an amorphous-Silicon (a-Si) barrier layer, which acts as a semi-insulating oxygen scavenger in a dual-layer a-Si/TiO2 active stack, being able to provide nonlinear IV cell characteristics, as well as to induce a large oxygen vacancy density in the switching layer.
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