2016
DOI: 10.1063/1.4962969
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A silicon doped hafnium oxide ferroelectric p–n–p–n SOI tunneling field–effect transistor with steep subthreshold slope and high switching state current ratio

Abstract: In this paper, a silicon–on–insulator (SOI) p–n–p–n tunneling field–effect transistor (TFET) with a silicon doped hafnium oxide (Si:HfO2) ferroelectric gate stack is proposed and investigated via 2D device simulation with a calibrated nonlocal band–to–band tunneling model. Utilization of Si:HfO2 instead of conventional perovskite ferroelectrics such as lead zirconium titanate (PbZrTiO3) and strontium bismuth tantalate (SrBi2Ta2O9) provides compatibility to the CMOS process as well as improved device scalabilit… Show more

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Cited by 15 publications
(4 citation statements)
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“…erroelectric HfO 2 -based thin films are considered to be promising candidates for future memory device applications, such as ferroelectric random access memory (FeRAM), ferroelectric field-effect transistors (FeFET), tunnel field-effect transistors (TFET), and resistive random access memory (ReRAM). [1][2][3][4][5][6][7][8] It has been reported that HfO 2 -based thin films containing various dopants, such as Si, [9][10][11][12][13] Al, 14) Sr, 15) Y, [16][17][18][19] Sm, 20) Gd, [20][21][22] and La, 23) as well as undoped-HfO 2 films, [24][25][26] can exhibit ferroelectricity. Ferroelectric Hf x Zr 1−x O 2 (HZO) films are also obtained when the Hf : Zr ratio of the HZO film is 0:5 : 0:5, while HZO films with large proportions of Hf and Zr exhibit dielectric-and antiferroelectric-like behavior, respectively.…”
mentioning
confidence: 99%
“…erroelectric HfO 2 -based thin films are considered to be promising candidates for future memory device applications, such as ferroelectric random access memory (FeRAM), ferroelectric field-effect transistors (FeFET), tunnel field-effect transistors (TFET), and resistive random access memory (ReRAM). [1][2][3][4][5][6][7][8] It has been reported that HfO 2 -based thin films containing various dopants, such as Si, [9][10][11][12][13] Al, 14) Sr, 15) Y, [16][17][18][19] Sm, 20) Gd, [20][21][22] and La, 23) as well as undoped-HfO 2 films, [24][25][26] can exhibit ferroelectricity. Ferroelectric Hf x Zr 1−x O 2 (HZO) films are also obtained when the Hf : Zr ratio of the HZO film is 0:5 : 0:5, while HZO films with large proportions of Hf and Zr exhibit dielectric-and antiferroelectric-like behavior, respectively.…”
mentioning
confidence: 99%
“…Furthermore, the Shockley-Read-Hall and Auger recombinations; concentration dependent mobility, bandgap narrowing effect, field dependent mobility and trap-assisted tunneling (TAT) models were used to model the recombination and generation in the highly doped regions. Also, we recently presented the validation of our simulation non-local BTBT model by tuning of the effective electron and hole masses as done in our earlier works 13,15,23,35,40 .…”
Section: Structure Model and Its Validationmentioning
confidence: 83%
“…The channel length is 50 nm, which lies under tunneling gate and auxiliary gate of lengths 25 nm each. Employing Si:HfO 2 as a ferroelectric material due to its full compatibility with the standard CMOS process and enhanced scaling potential in nanometer range (5‐30 nm) . The dielectric constant of Si:HfO 2 is lower in comparison to its perovskite counterparts (PZT and SBT).…”
Section: Device Descriptionmentioning
confidence: 99%
“…Employing Si:HfO 2 as a ferroelectric material due to its full compatibility with the standard CMOS process and enhanced scaling potential in nanometer range (5-30 nm). 29,30 The dielectric constant of Si:HfO 2 is lower in comparison to its perovskite counterparts (PZT and SBT). This property of Si:HfO 2 provides flexibility to be used in thin films which further reduces fringing effects.…”
Section: Device Descriptionmentioning
confidence: 99%