AlScN中的铁电性:开关、压印和150nm以下薄膜

2020 Joint Conference of the IEEE International Frequency Control Symposium and International Symposium on Applications of Ferroelectrics (IFCS-ISAF) Pub Date : 2020-07-01 DOI:10.1109/IFCS-ISAF41089.2020.9234883

S. Fichtner, F. Lofink, B. Wagner, Georg Schönweger, Tom-Niklas Kreutzer, A. Petraru, H. Kohlstedt

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引用次数: 11

摘要

AlScN中铁电性的发现使得人们首次清楚地观察到纤钛矿晶体结构中的效应，从而产生了一种前所未有的材料，具有非常大的矫顽力场(2-5 MV/cm)和残余极化$(70-110\ \mu \ mathm {C}/\text{cm}^{2})$。我们初步了解了AlScN的开关动力学，这表明畴壁运动限制了从电极界面开始的过程。此外，在AlScN薄膜中普遍观察到印记，并且可以初步追溯到带电缺陷分别与内部和外部极化和场的排列。从应用的角度来看，铁电性可以在厚度低于30 nm的薄膜中观察到，因为AlScN的矫顽力场在很大程度上与600 nm至27 nm之间的厚度无关。

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Ferroelectricity in AlScN: Switching, Imprint and sub-150 nm Films

The discovery of ferroelectricity in AlScN allowed the first clear observation of the effect in the wurtzite crystal structure, resulting in a material with a previously unprecedented combination of very large coercive fields (2-5 MV/cm) and remnant polarizations $(70-110\ \mu \mathrm{C}/\text{cm}^{2})$. We obtained initial insight into the switching dynamics of AlScN, which suggests a domain wall motion limited process progressing from the electrode interfaces. Further, imprint was generally observed in AlScN films and can tentatively be traced to the alignment of charged defects with the internal and external polarization and field, respectively. Potentially crucial from the application point of view, ferroelectricity could be observed in films with thicknesses below 30 nm – as the coercive fields of AlScN were found to be largely independent of thickness between 600 nm and 27 nm.

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2020 Joint Conference of the IEEE International Frequency Control Symposium and International Symposium on Applications of Ferroelectrics (IFCS-ISAF)

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