Reduction of bipolar disturb of floating-body cell (FBC) by silicide and thin silicon film formed at source and drain regions

Takeshi Hamamoto; Yoshiaki Fukuzumi; Tomoki Higashi; Hiroomi Nakajima; Yoshihiro Minami; Tomoaki Shino; Takashi Ohsawa; Akihiro Nitayama

doi:10.1109/TED.2010.2050550

Reduction of bipolar disturb of floating-body cell (FBC) by silicide and thin silicon film formed at source and drain regions

Takeshi Hamamoto, Yoshiaki Fukuzumi, Tomoki Higashi, Hiroomi Nakajima, Yoshihiro Minami, Tomoaki Shino, Takashi Ohsawa, Akihiro Nitayama

Center for Innovative Integrated Electronic Systems (CIES)

Research output: Contribution to journal › Article › peer-review

Abstract

The cell-to-cell leakage caused by bipolar disturb of the floating-body cell (FBC) has been investigated. In the case of FBC without silicide at the source and drain regions, the change of data "0" to data "1" has been observed in the writing operation to the adjacent cell. However, this leakage can be reduced when the silicide is formed on the thin silicon film at the source and drain regions. It has been clarified that the diffusion of holes inside the n⁺ region is restricted by the capture of holes at the silicide/silicon interface when silicon thickness reduces. Based on these experimental results, 6F² layout of FBC can be realized with the conventional logic device process platform.

Original language	English
Article number	5484457
Pages (from-to)	1781-1788
Number of pages	8
Journal	IEEE Transactions on Electron Devices
Volume	57
Issue number	8
DOIs	https://doi.org/10.1109/TED.2010.2050550
Publication status	Published - 2010 Aug 1

Keywords

Dynamic random-access memory (DRAM) chips
hot carriers
metaloxidesemiconductor field-effect transistors (MOSFETS)
silicon-on-insulator technology

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Electrical and Electronic Engineering

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10.1109/TED.2010.2050550

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title = "Reduction of bipolar disturb of floating-body cell (FBC) by silicide and thin silicon film formed at source and drain regions",

abstract = "The cell-to-cell leakage caused by bipolar disturb of the floating-body cell (FBC) has been investigated. In the case of FBC without silicide at the source and drain regions, the change of data {"}0{"} to data {"}1{"} has been observed in the writing operation to the adjacent cell. However, this leakage can be reduced when the silicide is formed on the thin silicon film at the source and drain regions. It has been clarified that the diffusion of holes inside the n+ region is restricted by the capture of holes at the silicide/silicon interface when silicon thickness reduces. Based on these experimental results, 6F2 layout of FBC can be realized with the conventional logic device process platform.",

keywords = "Dynamic random-access memory (DRAM) chips, hot carriers, metaloxidesemiconductor field-effect transistors (MOSFETS), silicon-on-insulator technology",

author = "Takeshi Hamamoto and Yoshiaki Fukuzumi and Tomoki Higashi and Hiroomi Nakajima and Yoshihiro Minami and Tomoaki Shino and Takashi Ohsawa and Akihiro Nitayama",

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T1 - Reduction of bipolar disturb of floating-body cell (FBC) by silicide and thin silicon film formed at source and drain regions

AU - Hamamoto, Takeshi

AU - Fukuzumi, Yoshiaki

AU - Higashi, Tomoki

AU - Nakajima, Hiroomi

AU - Minami, Yoshihiro

AU - Shino, Tomoaki

AU - Ohsawa, Takashi

AU - Nitayama, Akihiro

PY - 2010/8/1

Y1 - 2010/8/1

N2 - The cell-to-cell leakage caused by bipolar disturb of the floating-body cell (FBC) has been investigated. In the case of FBC without silicide at the source and drain regions, the change of data "0" to data "1" has been observed in the writing operation to the adjacent cell. However, this leakage can be reduced when the silicide is formed on the thin silicon film at the source and drain regions. It has been clarified that the diffusion of holes inside the n+ region is restricted by the capture of holes at the silicide/silicon interface when silicon thickness reduces. Based on these experimental results, 6F2 layout of FBC can be realized with the conventional logic device process platform.

AB - The cell-to-cell leakage caused by bipolar disturb of the floating-body cell (FBC) has been investigated. In the case of FBC without silicide at the source and drain regions, the change of data "0" to data "1" has been observed in the writing operation to the adjacent cell. However, this leakage can be reduced when the silicide is formed on the thin silicon film at the source and drain regions. It has been clarified that the diffusion of holes inside the n+ region is restricted by the capture of holes at the silicide/silicon interface when silicon thickness reduces. Based on these experimental results, 6F2 layout of FBC can be realized with the conventional logic device process platform.

KW - Dynamic random-access memory (DRAM) chips

KW - hot carriers

KW - metaloxidesemiconductor field-effect transistors (MOSFETS)

KW - silicon-on-insulator technology

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Reduction of bipolar disturb of floating-body cell (FBC) by silicide and thin silicon film formed at source and drain regions

Abstract

Keywords

ASJC Scopus subject areas

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