2018
DOI: 10.1007/s11664-018-6075-2
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Nanoscale High-k Dielectrics for Junctionless Nanowire Transistor for Drain Current Analysis

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Cited by 18 publications
(7 citation statements)
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“…In our previous work, the SM SNS GAATFT structure was validated and compared with different dielectrics. The result is shown in [13] and among the compared dielectrics HfO2 produces a better performance and [14,15] also supports this.…”
Section: Device Structuresupporting
confidence: 61%
“…In our previous work, the SM SNS GAATFT structure was validated and compared with different dielectrics. The result is shown in [13] and among the compared dielectrics HfO2 produces a better performance and [14,15] also supports this.…”
Section: Device Structuresupporting
confidence: 61%
“…HfO 2 shows to be a worthy dielectric in terms of Of-state current and gives suitable switching of the device. Consequently, improving the device I ON /I OFF ratio [10].…”
Section: Previous Workmentioning
confidence: 99%
“…One of the key approaches discussed in literature to obtain good channel electrostatics has been the aggressive reduction of the Effective Oxide Thickness (EOT), thus enhancing the transverse electric field through the use of a High-k material in the gate stack. Due to being thermodynamically stable compared to other High-k dielectrics [7], Hf O 2 has emerged as one of the leading candidates to be used as a High-k material in gate stack. In order to obtain improved device performance at shorter channel lengths, it is important to scale the Effective Oxide thickness (EOT) to less than 1 nm, which is possible through scaling of a High-K gate stack comprising of a High-K gate oxide, such as Hf O 2 , and the SiO 2 layer below it.…”
Section: Introductionmentioning
confidence: 99%