Layout Dependence of Total Ionizing Dose Effects on 12-nm Bulk FinFET Core Digital Structures

T. Wallace; M. Spear; Aymeric Privat; J. Neuendank; G. Irumva; D. Wilson; I. Sanchez Esqueda; H. J. Barnaby; M. Turowski; E. Mikkola; D. Hughart; M. J. Marinella; J. Brunhaver; A. Gutierrez; R. Von Niederhausern; S. Holloway; D. Beltran; J. L. Taggart

doi:10.1109/TNS.2022.3221060

Layout Dependence of Total Ionizing Dose Effects on 12-nm Bulk FinFET Core Digital Structures

T. Wallace, M. Spear, Aymeric Privat, J. Neuendank, G. Irumva, D. Wilson, I. Sanchez Esqueda, H. J. Barnaby, M. Turowski, E. Mikkola, D. Hughart, M. J. Marinella, J. Brunhaver, A. Gutierrez, R. Von Niederhausern, S. Holloway, D. Beltran, J. L. Taggart

Engineering, Ira A. Fulton Schools of (IAFSE)

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

Abstract

An apparent layout dependence for TID susceptibility in a commercial 12-nm FinFET technology is identified. While drain current scales with the width-to-length ratio prior to irradiation, after exposure, layout location becomes the dominant factor in TID response. To examine this effect, devices across multiple chip locations were biased and irradiated. All structures exhibited the same layout dependance regardless of the position on the test chip. In addition, TID responses were examined using both X-rays and γ-ray sources, and it was found that this effect did not depend on the type of radiation source. As a method of examining possible reasons of this effect, TCAD simulations were performed to evaluate the impact of sub-fin doping on the TID response of these structures. It was determined that small deviations of the sub-fin doping concentration could result in large changes in the drain current after the TID exposure. Hence, the overall TID response of these structures may be heavily dependent on the doping level in the sub-fin region.

Original language	English (US)
Pages (from-to)	1
Number of pages	1
Journal	IEEE Transactions on Nuclear Science
DOIs	https://doi.org/10.1109/TNS.2022.3221060
State	Accepted/In press - 2022

Keywords

FinFET
MOSFET
radiation effects
TID
total ionizing dose
transistors
X-ray
γ-ray

ASJC Scopus subject areas

Nuclear and High Energy Physics
Nuclear Energy and Engineering
Electrical and Electronic Engineering

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10.1109/TNS.2022.3221060

Cite this

Wallace, T., Spear, M., Privat, A., Neuendank, J., Irumva, G., Wilson, D., Sanchez Esqueda, I., Barnaby, H. J., Turowski, M., Mikkola, E., Hughart, D., Marinella, M. J., Brunhaver, J., Gutierrez, A., Von Niederhausern, R., Holloway, S., Beltran, D., & Taggart, J. L. (Accepted/In press). Layout Dependence of Total Ionizing Dose Effects on 12-nm Bulk FinFET Core Digital Structures. IEEE Transactions on Nuclear Science, 1. https://doi.org/10.1109/TNS.2022.3221060

Wallace, T, Spear, M, Privat, A, Neuendank, J, Irumva, G, Wilson, D, Sanchez Esqueda, I , Barnaby, HJ, Turowski, M, Mikkola, E, Hughart, D, Marinella, MJ, Brunhaver, J, Gutierrez, A, Von Niederhausern, R, Holloway, S, Beltran, D & Taggart, JL 2022, 'Layout Dependence of Total Ionizing Dose Effects on 12-nm Bulk FinFET Core Digital Structures', IEEE Transactions on Nuclear Science, pp. 1. https://doi.org/10.1109/TNS.2022.3221060

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title = "Layout Dependence of Total Ionizing Dose Effects on 12-nm Bulk FinFET Core Digital Structures",

abstract = "An apparent layout dependence for TID susceptibility in a commercial 12-nm FinFET technology is identified. While drain current scales with the width-to-length ratio prior to irradiation, after exposure, layout location becomes the dominant factor in TID response. To examine this effect, devices across multiple chip locations were biased and irradiated. All structures exhibited the same layout dependance regardless of the position on the test chip. In addition, TID responses were examined using both X-rays and γ-ray sources, and it was found that this effect did not depend on the type of radiation source. As a method of examining possible reasons of this effect, TCAD simulations were performed to evaluate the impact of sub-fin doping on the TID response of these structures. It was determined that small deviations of the sub-fin doping concentration could result in large changes in the drain current after the TID exposure. Hence, the overall TID response of these structures may be heavily dependent on the doping level in the sub-fin region.",

keywords = "FinFET, MOSFET, radiation effects, TID, total ionizing dose, transistors, X-ray, γ-ray",

author = "T. Wallace and M. Spear and Aymeric Privat and J. Neuendank and G. Irumva and D. Wilson and {Sanchez Esqueda}, I. and Barnaby, {H. J.} and M. Turowski and E. Mikkola and D. Hughart and Marinella, {M. J.} and J. Brunhaver and A. Gutierrez and {Von Niederhausern}, R. and S. Holloway and D. Beltran and Taggart, {J. L.}",

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doi = "10.1109/TNS.2022.3221060",

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T1 - Layout Dependence of Total Ionizing Dose Effects on 12-nm Bulk FinFET Core Digital Structures

AU - Wallace, T.

AU - Spear, M.

AU - Privat, Aymeric

AU - Neuendank, J.

AU - Irumva, G.

AU - Wilson, D.

AU - Sanchez Esqueda, I.

AU - Barnaby, H. J.

AU - Turowski, M.

AU - Mikkola, E.

AU - Hughart, D.

AU - Marinella, M. J.

AU - Brunhaver, J.

AU - Gutierrez, A.

AU - Von Niederhausern, R.

AU - Holloway, S.

AU - Beltran, D.

AU - Taggart, J. L.

N1 - Publisher Copyright: IEEE

PY - 2022

Y1 - 2022

N2 - An apparent layout dependence for TID susceptibility in a commercial 12-nm FinFET technology is identified. While drain current scales with the width-to-length ratio prior to irradiation, after exposure, layout location becomes the dominant factor in TID response. To examine this effect, devices across multiple chip locations were biased and irradiated. All structures exhibited the same layout dependance regardless of the position on the test chip. In addition, TID responses were examined using both X-rays and γ-ray sources, and it was found that this effect did not depend on the type of radiation source. As a method of examining possible reasons of this effect, TCAD simulations were performed to evaluate the impact of sub-fin doping on the TID response of these structures. It was determined that small deviations of the sub-fin doping concentration could result in large changes in the drain current after the TID exposure. Hence, the overall TID response of these structures may be heavily dependent on the doping level in the sub-fin region.

AB - An apparent layout dependence for TID susceptibility in a commercial 12-nm FinFET technology is identified. While drain current scales with the width-to-length ratio prior to irradiation, after exposure, layout location becomes the dominant factor in TID response. To examine this effect, devices across multiple chip locations were biased and irradiated. All structures exhibited the same layout dependance regardless of the position on the test chip. In addition, TID responses were examined using both X-rays and γ-ray sources, and it was found that this effect did not depend on the type of radiation source. As a method of examining possible reasons of this effect, TCAD simulations were performed to evaluate the impact of sub-fin doping on the TID response of these structures. It was determined that small deviations of the sub-fin doping concentration could result in large changes in the drain current after the TID exposure. Hence, the overall TID response of these structures may be heavily dependent on the doping level in the sub-fin region.

KW - FinFET

KW - MOSFET

KW - radiation effects

KW - TID

KW - total ionizing dose

KW - transistors

KW - X-ray

KW - γ-ray

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Layout Dependence of Total Ionizing Dose Effects on 12-nm Bulk FinFET Core Digital Structures

Abstract

Keywords

ASJC Scopus subject areas

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