Random telegraph signals of tetrahedral-shaped recess field-effect transistor memory cell with a hole-trapping floating quantum dot gate

Masashi Shima; Yoshiki Sakuma; Yuji Awano; Naoki Yokoyama

doi:10.1063/1.127003

Random telegraph signals of tetrahedral-shaped recess field-effect transistor memory cell with a hole-trapping floating quantum dot gate

Masashi Shima, Yoshiki Sakuma, Yuji Awano, Naoki Yokoyama

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

5 Citations (Scopus)

Abstract

An AlGaAs/InGaAs heterojunction field-effect transistor (FET) memory cell in a tetrahedral-shaped recess (TSR) on the (111)B GaAs substrate was fabricated and investigated. The TSR–FET memory cell has a channel on the (111)A facet surfaces of the recess and a hole-trapping quantum dot (QD) as a floating gate at the bottom. Memory operations were achieved at temperatures up to 130 K, and random telegraph signals (RTSs) with a temperature dependence were observed in the retention characteristics. After our analysis of RTSs, the activation energy of hole capture and emission processes in the TSR QD were estimated to be 260 and 190 meV, respectively.

Original language	English
Pages (from-to)	441-443
Number of pages	3
Journal	Applied Physics Letters
Volume	77
Issue number	3
DOIs	https://doi.org/10.1063/1.127003
Publication status	Published - 2000 Jul 17
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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title = "Random telegraph signals of tetrahedral-shaped recess field-effect transistor memory cell with a hole-trapping floating quantum dot gate",

abstract = "An AlGaAs/InGaAs heterojunction field-effect transistor (FET) memory cell in a tetrahedral-shaped recess (TSR) on the (111)B GaAs substrate was fabricated and investigated. The TSR–FET memory cell has a channel on the (111)A facet surfaces of the recess and a hole-trapping quantum dot (QD) as a floating gate at the bottom. Memory operations were achieved at temperatures up to 130 K, and random telegraph signals (RTSs) with a temperature dependence were observed in the retention characteristics. After our analysis of RTSs, the activation energy of hole capture and emission processes in the TSR QD were estimated to be 260 and 190 meV, respectively.",

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T1 - Random telegraph signals of tetrahedral-shaped recess field-effect transistor memory cell with a hole-trapping floating quantum dot gate

AU - Shima, Masashi

AU - Sakuma, Yoshiki

AU - Awano, Yuji

AU - Yokoyama, Naoki

PY - 2000/7/17

Y1 - 2000/7/17

N2 - An AlGaAs/InGaAs heterojunction field-effect transistor (FET) memory cell in a tetrahedral-shaped recess (TSR) on the (111)B GaAs substrate was fabricated and investigated. The TSR–FET memory cell has a channel on the (111)A facet surfaces of the recess and a hole-trapping quantum dot (QD) as a floating gate at the bottom. Memory operations were achieved at temperatures up to 130 K, and random telegraph signals (RTSs) with a temperature dependence were observed in the retention characteristics. After our analysis of RTSs, the activation energy of hole capture and emission processes in the TSR QD were estimated to be 260 and 190 meV, respectively.

AB - An AlGaAs/InGaAs heterojunction field-effect transistor (FET) memory cell in a tetrahedral-shaped recess (TSR) on the (111)B GaAs substrate was fabricated and investigated. The TSR–FET memory cell has a channel on the (111)A facet surfaces of the recess and a hole-trapping quantum dot (QD) as a floating gate at the bottom. Memory operations were achieved at temperatures up to 130 K, and random telegraph signals (RTSs) with a temperature dependence were observed in the retention characteristics. After our analysis of RTSs, the activation energy of hole capture and emission processes in the TSR QD were estimated to be 260 and 190 meV, respectively.

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JO - Applied Physics Letters

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Random telegraph signals of tetrahedral-shaped recess field-effect transistor memory cell with a hole-trapping floating quantum dot gate

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