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A Gate-All-Around Back-Gated Junctionless 3D NAND Structure for Improved Switching Efficiency and Variability Suppression

Authors
Min, SeahKim, SoheePark, Jong KyungSong, Yun-Heub
Issue Date
May-2026
Publisher
Institute of Electrical and Electronics Engineers Inc.
Keywords
3D NAND Flash; Back-Gate Bias; GAAB; Junctionless; Poly-silicon; Subthreshold Swing; Variability
Citation
2026 IEEE International Memory Workshop, IMW 2026 - Proceedings, pp 1 - 4
Pages
4
Indexed
SCOPUS
Journal Title
2026 IEEE International Memory Workshop, IMW 2026 - Proceedings
Start Page
1
End Page
4
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/218603
DOI
10.1109/IMW68301.2026.11532848
ISSN
2330-7978
2573-7503
Abstract
As 3D NAND technology scales vertically to ultrahigh layer counts, cell current degradation caused by the low mobility of poly-silicon channels has emerged as a critical bottleneck. Junctionless (JL) devices employing heavily doped channels have been introduced to boost cell current through bulk conduction. However, such devices suffer from degraded cut-off characteristics and increased threshold voltage (Vth) variability due to random dopant fluctuation (RDF) and grain boundary segregation. In this paper, we propose a gate-allaround with back-gate (GAAB) junctionless 3D NAND structure to address these limitations. By introducing a backside control gate in planar test devices, we experimentally demonstrate that applying a negative back-bias induces a virtual thin-body effect. This effect effectively suppresses backchannel leakage and improves the subthreshold swing (SS), while preserving the high current drive capability of the junctionless channel. Furthermore, 3D TCAD simulations on a 64-word-line string confirm that the proposed structure significantly enhances switching efficiency and reduces variability compared with conventional schemes, offering a robust solution for ultra-high stack 3D NAND technology.
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