Niharika Thakuria, A. Saha, S. Thirumala, Daniel S. Schulman, Saptarshi Das, S. Gupta
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引用次数: 3
摘要
在几种非易失性存储器(nvm)中,基于铁电(FE)的存储器由于电场(E)驱动的低功耗写入[1]-[2]而显示出明显的优势。然而,在基于FE的nvm中存在其他问题(例如FERAMs中的破坏性读取[3],具有浮动层间金属(ILM)[5]的ffet中的栅极泄漏以及没有ILM[4]的ffet中的陷阱和退极化场)。为了克服这些问题,同时保留FE的有用特性,我们提出了一种极化诱导应变耦合TMD FET (PS FET)[图1(a)],其特点是(a)基于极化的非易失性位存储(b) e驱动写入和(c)压电耦合与二维过渡金属二硫族化合物(TMDs)的动态带隙(EG)调谐[图1(b)]。
Polarization-induced Strain-coupled TMD FETs (PS FETs) for Non-Volatile Memory Applications
Among several non-volatile memories (NVMs), ferroelectric (FE) based memories show distinct advantages due to electric field ( E )-driven low-power write [1] - [2] . However, there are other concerns in FE based NVMs (such destructive read in FERAMs [3] , gate leakage in FEFETs with floating inter-layer metal (ILM) [5] and traps and depolarization fields in FEFETs without ILM [4] ). To overcome such issues while retaining the useful features of FE, we propose a Polarization-induced Strain coupled TMD FET (PS FET) [ Fig. 1(a) ] that features (a) polarization-based non-volatile bit-storage (b) E-driven write and (c) coupling of piezoelectricity with dynamic bandgap (EG) tuning of 2D Transition Metal Dichalcogenides (TMDs) for read [ Fig. 1(b) ].
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