Random Telegraph Signals and 1/f Noise in ZnO Nanowire Field Effect Transistors

2007 7th IEEE Conference on Nanotechnology (IEEE NANO) Pub Date : 2007-08-01 DOI:10.1109/NANO.2007.4601384

H. Xiong, Wenyong Wang, Qiliang Li, C. Richter, J. Suehle, Woong-Ki Hong, Takhee Lee, D. Fleetwood

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Abstract

Single-crystal ZnO nanowires have been fabricated as field effect transistors (FETs). The low frequency noise in the drain current of n-type ZnO FETs has been investigated through random telegraph signals (RTSs) at 4.2 K and 1/f noise at room temperature. At room temperature, the noise power spectra have a classic 1/f dependence with a Hooge parameter that is ~ 5 times 10-3. ZnO FETs measured in a dry O2 - environment displayed elevated noise levels that can be attributed to increased fluctuations associated with O2 - on the nanowire surfaces. At 4.2 K, the deviceiquests noise spectra change from 1/f to Lorentzian type, and the current traces as a function of time show random telegraph signals (RTSs). The channel current RTSs are attributed to correlated carrier number and mobility fluctuation due to the trapping and emission of carriers by discrete border traps. At certain bias conditions, the current in the channel shows three-level switching events with amplitudes as high as 40 %, from which two individual defects with energies close to the Fermi level in the ZnO channel can be distinguished.

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ZnO纳米线场效应晶体管中的随机电报信号和1/f噪声

单晶ZnO纳米线已被制成场效应晶体管(fet)。利用随机电报信号(RTSs)和室温1/f噪声研究了n型ZnO场效应管漏极电流中的低频噪声。在室温下，噪声功率谱与胡格参数(~ 5 × 10-3)具有经典的1/f相关性。在干燥的O2 -环境中测量的ZnO fet显示出更高的噪声水平，这可归因于纳米线表面与O2 -相关的波动增加。在4.2 K时，器件噪声谱由1/f型变为洛伦兹型，电流走线随时间变化为随机电报信号(RTSs)。通道电流RTSs归因于离散边界陷阱捕获和发射载流子所引起的相关载流子数和迁移率波动。在一定偏压条件下，通道内的电流表现出幅度高达40%的三能级开关事件，由此可以区分出ZnO通道中两个能量接近费米能级的单独缺陷。

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2007 7th IEEE Conference on Nanotechnology (IEEE NANO)

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