G. Angelov, M. Spasova, V. Garistov, D. Nikolov, I. Ruskova, R. Rusev, E. Gieva, R. Radonov, M. Hristov, Y. Georgiev, Sayantan Ghosh, M. Khan, R. Rusev
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引用次数: 0
Abstract
The paper presents a junctionless nanowire transistor (JLNT) compact model. The model is developed based on the compact model of J. P. Collinge and it is implemented in Matlab. The modeled JLNT is the core device of an air-pollution sensor for real-time detection of atmospheric radicals. The device configurations are modeled and compared versus experimental measurements of prototypes fabricated at the Institute of Ion Beam Physics and Materials Research, Helmholtz-Zentrum Dresden-Rossendorf (Germany). Modeled device structures were fabricated on ultra-thin SOI substrates using electron beam and UV lithography processes, reactive ion etching, rapid thermal oxidation, thermal evaporation, rapid thermal annealing. Electrical device characteristics are compared for two types of fabricated devices. The average integral error of our model compared to the measured characteristics is between 2.83% and 9.30% for both device types.
提出了一种无结纳米线晶体管(JLNT)的紧凑模型。该模型是基于J. P. Collinge的紧凑模型建立的,并在Matlab中实现。模拟的JLNT是实时检测大气自由基的空气污染传感器的核心装置。该装置的结构被建模,并与德国赫姆霍兹-德累斯顿-罗森多夫离子束物理与材料研究所制造的原型的实验测量结果进行了比较。在超薄SOI衬底上采用电子束和紫外光刻、反应离子蚀刻、快速热氧化、热蒸发和快速热退火工艺制备了模型器件结构。比较了两种类型的制造器件的电气器件特性。对于两种器件类型,我们的模型与实测特性的平均积分误差在2.83%到9.30%之间。
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