Numerical simulation of vertical tunnelling field-effect transistors charge-trapping memory with TCAD tools

Cao, Yang; Tian, Guoliang; Majumdar, Sandip; Bi, Jinshun; Xi, Kai; Li, Bo

doi:10.1088/1361-6641/abe0f6

Semicond. Sci. Technol.

2021

DOI: 10.1088/1361-6641/abe0f6

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Numerical simulation of vertical tunnelling field-effect transistors charge-trapping memory with TCAD tools

Yang Cao

Guoliang Tian

Sandip Majumdar

et al.

Abstract: A novel vertical tunnelling field-effect transistor (TFET) based on silicon-oxide-nitride-oxide-silicon (SONOS) non-volatile memory device, named as VT-SONOS, is proposed and investigated using TCAD simulations. Different from traditional planar TFET-based SONOS memory, the VT-SONOS device is programmed via band-to-band tunnelling for vertical pocket and Fowler–Nordheim tunnelling for both pocket/bottom oxide (OXb) and channel/OXb regions, which leads to a steeper subthreshold swing (SS) and a larger on-state … Show more

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Data inversion and erroneous annealing of floating gate cell under proton radiation

刘晔¹,

郭红霞²

2022

Acta Phys. Sin.

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In this paper, the 60 MeV proton beam is used to carry out the proton irradiation experiment of NAND Flash memory, the single-event-upset cross section data of the floating gate cell is obtained, and the annealing rule of the floating gate cell errors is analyzed, and the effect of proton irradiation on the data retention ability of floating gate cells is studied. This is the results: The single-event-upset cross section of the floating gate cell increases with the increase of proton energy, and decreases with the increase of proton fluence. Floating gate cell errors continue to increase over time, and this effect is more pronounced when low energy protons are incident. After proton irradiation, the data retention ability of the floating gate cell is significantly degraded. The analysis suggests that the high energy protons indirectly ionize through the nuclear reaction with the target atom, causing single-event-upset of the floating gate cell, The correlation between the upset cross section and the proton fluence is due to the difference in single-event-effect sensitivity of the floating gate cell. The proton-induced non-ionizing damage can form partially permanent defect damage in the tunnel oxide layer, creating multiple auxiliary trap channels that can leak floating gate electrons, resulting in the increase of floating gate cell errors and the degradation of data retention ability.

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Data inversion and erroneous annealing of floating gate cell under proton radiation

刘晔¹,

郭红霞²

2022

Acta Phys. Sin.

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show abstract

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Numerical simulation of vertical tunnelling field-effect transistors charge-trapping memory with TCAD tools

Cited by 1 publication

References 38 publications

Data inversion and erroneous annealing of floating gate cell under proton radiation

Data inversion and erroneous annealing of floating gate cell under proton radiation

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