MASS AND ENERGY LIMIT OF ISOTOPE IDENTIFICATION OF HEAVY IONS USING DELTA E minus E SILICON-DETECTOR TELESCOPE.

Nobuyuki Hasebe; Hisashi Yoshii; Tadayoshi Doke; Katsuaki Nagata

MASS AND ENERGY LIMIT OF ISOTOPE IDENTIFICATION OF HEAVY IONS USING DELTA E minus E SILICON-DETECTOR TELESCOPE.

Nobuyuki Hasebe^*, Hisashi Yoshii, Tadayoshi Doke, Katsuaki Nagata

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Chapter

6 Citations (Scopus)

Abstract

The technical limit of isotope identification of ions heavier than iron using a DELTA E minus E silicon detector telescope is presented. The identification of iron or heavier ions with energies less than 30 Mev/n is limited by the nonuniformity of the thickness in a thin silicon detector, and a decrease in the effective charge of low-velocity ions passing through a silicon medium. In an energy region higher than 300 Mev/n, the slope of the stopping power for heavy ions becomes smaller, which limits the capability of isotope identification. In the intermediate energy range, some ions heavier than iron can be identified with a resolution of sigma //m equals 0. 22 amu; the maximum mass identifiable in this DELTA E minus E algorithm is about 100 amu because of the restriction of the nonuniformity of detector thickness and the straggling of the energy loss of ions passing through a silicon detector.

Original language	English
Title of host publication	Japanese Journal of Applied Physics, Part 1: Regular Papers & Short Notes
Pages	2086-2089
Number of pages	4
Volume	26
Edition	12
Publication status	Published - 1987 Dec
Externally published	Yes

ASJC Scopus subject areas

Engineering(all)

Cite this

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abstract = "The technical limit of isotope identification of ions heavier than iron using a DELTA E minus E silicon detector telescope is presented. The identification of iron or heavier ions with energies less than 30 Mev/n is limited by the nonuniformity of the thickness in a thin silicon detector, and a decrease in the effective charge of low-velocity ions passing through a silicon medium. In an energy region higher than 300 Mev/n, the slope of the stopping power for heavy ions becomes smaller, which limits the capability of isotope identification. In the intermediate energy range, some ions heavier than iron can be identified with a resolution of sigma //m equals 0. 22 amu; the maximum mass identifiable in this DELTA E minus E algorithm is about 100 amu because of the restriction of the nonuniformity of detector thickness and the straggling of the energy loss of ions passing through a silicon detector.",

author = "Nobuyuki Hasebe and Hisashi Yoshii and Tadayoshi Doke and Katsuaki Nagata",

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T1 - MASS AND ENERGY LIMIT OF ISOTOPE IDENTIFICATION OF HEAVY IONS USING DELTA E minus E SILICON-DETECTOR TELESCOPE.

AU - Hasebe, Nobuyuki

AU - Yoshii, Hisashi

AU - Doke, Tadayoshi

AU - Nagata, Katsuaki

PY - 1987/12

Y1 - 1987/12

N2 - The technical limit of isotope identification of ions heavier than iron using a DELTA E minus E silicon detector telescope is presented. The identification of iron or heavier ions with energies less than 30 Mev/n is limited by the nonuniformity of the thickness in a thin silicon detector, and a decrease in the effective charge of low-velocity ions passing through a silicon medium. In an energy region higher than 300 Mev/n, the slope of the stopping power for heavy ions becomes smaller, which limits the capability of isotope identification. In the intermediate energy range, some ions heavier than iron can be identified with a resolution of sigma //m equals 0. 22 amu; the maximum mass identifiable in this DELTA E minus E algorithm is about 100 amu because of the restriction of the nonuniformity of detector thickness and the straggling of the energy loss of ions passing through a silicon detector.

AB - The technical limit of isotope identification of ions heavier than iron using a DELTA E minus E silicon detector telescope is presented. The identification of iron or heavier ions with energies less than 30 Mev/n is limited by the nonuniformity of the thickness in a thin silicon detector, and a decrease in the effective charge of low-velocity ions passing through a silicon medium. In an energy region higher than 300 Mev/n, the slope of the stopping power for heavy ions becomes smaller, which limits the capability of isotope identification. In the intermediate energy range, some ions heavier than iron can be identified with a resolution of sigma //m equals 0. 22 amu; the maximum mass identifiable in this DELTA E minus E algorithm is about 100 amu because of the restriction of the nonuniformity of detector thickness and the straggling of the energy loss of ions passing through a silicon detector.

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M3 - Chapter

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BT - Japanese Journal of Applied Physics, Part 1: Regular Papers & Short Notes

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MASS AND ENERGY LIMIT OF ISOTOPE IDENTIFICATION OF HEAVY IONS USING DELTA E minus E SILICON-DETECTOR TELESCOPE.

Abstract

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