Simulation of radiotracer method for diffusion studies using short-lived radioactive nuclear beams

S. C. Jeong; I. Katayama; H. Kawakami; H. Ishiyama; H. Miyatake; M. Sataka; A. Iwase; S. Okayasu; H. Sugai; S. Ichikawa; K. Nishio; Y. Sugiyama; M. Yahagi; K. Takada; M. Watanabe

doi:10.1016/S0168-583X(03)01503-9

Simulation of radiotracer method for diffusion studies using short-lived radioactive nuclear beams

S. C. Jeong, I. Katayama, H. Kawakami, H. Ishiyama, H. Miyatake, M. Sataka, A. Iwase, S. Okayasu, H. Sugai, S. Ichikawa, K. Nishio, Y. Sugiyama, M. Yahagi, K. Takada, M. Watanabe

研究成果: Conference article › 査読

3 被引用数 (Scopus)

抄録

We have studied, by a computer simulation, the feasibility of the radiotracer method for diffusion studies using short-lived radioactive nuclear beams as tracers. We have considered two typical examples of radiotracers that will be available in KEK-JAERI RNB facility, ¹⁸F (half-life: 1.8 h, β⁺-emitter) and ⁸Li (half-life: 0.83 s, α-emitter). The sample is set on a given temperature and irradiated by the tracer beams for a time-duration. In the case of ¹⁸F, the serial sectioning technique by the ion-beam-sputtering device is assumed to obtain the concentration-depth profile of the tracer diffused during the irradiation time. In the case of ⁸Li, the simulation reveals that the time-dependent yields of α particles can be used as a measure of the diffusivity of the tracer in a non-destructive way. The present method could be applied to measure rather large diffusion coefficients of various radiotracers with a short measuring time.

本文言語	English
ページ（範囲）	483-488
ページ数	6
ジャーナル	Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms
巻	212
号	1-4
DOI	https://doi.org/10.1016/S0168-583X(03)01503-9
出版ステータス	Published - 2003 12月
外部発表	はい
イベント	Atomic Collisions in Solids - India, India 継続期間: 2003 1月 19 → 2003 1月 24

ASJC Scopus subject areas

核物理学および高エネルギー物理学
器械工学

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10.1016/S0168-583X(03)01503-9

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Jeong, S. C., Katayama, I., Kawakami, H., Ishiyama, H., Miyatake, H., Sataka, M., Iwase, A., Okayasu, S., Sugai, H., Ichikawa, S., Nishio, K., Sugiyama, Y., Yahagi, M., Takada, K., & Watanabe, M. (2003). Simulation of radiotracer method for diffusion studies using short-lived radioactive nuclear beams. Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, 212(1-4), 483-488. https://doi.org/10.1016/S0168-583X(03)01503-9

Jeong, SC, Katayama, I, Kawakami, H, Ishiyama, H, Miyatake, H, Sataka, M, Iwase, A, Okayasu, S, Sugai, H, Ichikawa, S, Nishio, K, Sugiyama, Y, Yahagi, M, Takada, K & Watanabe, M 2003, 'Simulation of radiotracer method for diffusion studies using short-lived radioactive nuclear beams', Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, vol. 212, no. 1-4, pp. 483-488. https://doi.org/10.1016/S0168-583X(03)01503-9

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abstract = "We have studied, by a computer simulation, the feasibility of the radiotracer method for diffusion studies using short-lived radioactive nuclear beams as tracers. We have considered two typical examples of radiotracers that will be available in KEK-JAERI RNB facility, 18F (half-life: 1.8 h, β+-emitter) and 8Li (half-life: 0.83 s, α-emitter). The sample is set on a given temperature and irradiated by the tracer beams for a time-duration. In the case of 18F, the serial sectioning technique by the ion-beam-sputtering device is assumed to obtain the concentration-depth profile of the tracer diffused during the irradiation time. In the case of 8Li, the simulation reveals that the time-dependent yields of α particles can be used as a measure of the diffusivity of the tracer in a non-destructive way. The present method could be applied to measure rather large diffusion coefficients of various radiotracers with a short measuring time.",

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T1 - Simulation of radiotracer method for diffusion studies using short-lived radioactive nuclear beams

AU - Jeong, S. C.

AU - Katayama, I.

AU - Kawakami, H.

AU - Ishiyama, H.

AU - Miyatake, H.

AU - Sataka, M.

AU - Iwase, A.

AU - Okayasu, S.

AU - Sugai, H.

AU - Ichikawa, S.

AU - Nishio, K.

AU - Sugiyama, Y.

AU - Yahagi, M.

AU - Takada, K.

AU - Watanabe, M.

PY - 2003/12

Y1 - 2003/12

N2 - We have studied, by a computer simulation, the feasibility of the radiotracer method for diffusion studies using short-lived radioactive nuclear beams as tracers. We have considered two typical examples of radiotracers that will be available in KEK-JAERI RNB facility, 18F (half-life: 1.8 h, β+-emitter) and 8Li (half-life: 0.83 s, α-emitter). The sample is set on a given temperature and irradiated by the tracer beams for a time-duration. In the case of 18F, the serial sectioning technique by the ion-beam-sputtering device is assumed to obtain the concentration-depth profile of the tracer diffused during the irradiation time. In the case of 8Li, the simulation reveals that the time-dependent yields of α particles can be used as a measure of the diffusivity of the tracer in a non-destructive way. The present method could be applied to measure rather large diffusion coefficients of various radiotracers with a short measuring time.

AB - We have studied, by a computer simulation, the feasibility of the radiotracer method for diffusion studies using short-lived radioactive nuclear beams as tracers. We have considered two typical examples of radiotracers that will be available in KEK-JAERI RNB facility, 18F (half-life: 1.8 h, β+-emitter) and 8Li (half-life: 0.83 s, α-emitter). The sample is set on a given temperature and irradiated by the tracer beams for a time-duration. In the case of 18F, the serial sectioning technique by the ion-beam-sputtering device is assumed to obtain the concentration-depth profile of the tracer diffused during the irradiation time. In the case of 8Li, the simulation reveals that the time-dependent yields of α particles can be used as a measure of the diffusivity of the tracer in a non-destructive way. The present method could be applied to measure rather large diffusion coefficients of various radiotracers with a short measuring time.

KW - Charged particle (α)-emitter

KW - Concentration-depth profile

KW - Diffusion coefficient

KW - Radiotracer method

KW - Short-lived radioactive nuclear beams

KW - β-emitter

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T2 - Atomic Collisions in Solids

Y2 - 19 January 2003 through 24 January 2003

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Simulation of radiotracer method for diffusion studies using short-lived radioactive nuclear beams

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