Determination of the 129I transmutation rate and 129I(n, 2n)128I correction using gas mass spectrometry

Xuesong Li; Xiaoping Ouyang; Xiaobing Pan; Guanyi Wei; Jing Tu

doi:10.1080/00223131.2013.785275

Determination of the ¹²⁹I transmutation rate and ¹²⁹I(n, 2n)¹²⁸I correction using gas mass spectrometry

Xuesong Li
, Xiaoping Ouyang
, Xiaobing Pan
, Guanyi Wei
, Jing Tu

Northwest Institute of Nuclear Technology

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

1 Scopus citations

Abstract

Two groups of ¹²⁹I and ¹²⁷I targets were analyzed using a gas quadrupole mass spectrometer (QMS) to determine the transmutation rates via the melting method. Sodium iodide was chosen to make the target. The iodine composition in the ¹²⁹I targets is 82.7% ¹²⁹I and 17.3% ¹²⁷I. The transmutation rate of the ¹²⁹I(n, γ)¹³⁰I reaction was determined by measuring the ¹³⁰Xe with QMS. An equivalent corrective method was brought out to correct the ¹²⁹I(n, 2n)¹²⁸I branch which is interfered with by the ¹²⁷I(n, γ)¹²⁸I reaction. And the correction formula was deduced in theory. For very little ¹²⁸Xe from the ¹²⁹I(n, 2n)¹²⁸I reaction, the equivalent corrective method could not be suitable here. However, it is suitable for the mass of ¹²⁸Xe from ¹²⁹I(n,2n)¹²⁸I reaction that reaches the accurately detective level of the mass spectrometry.

Original language	English
Pages (from-to)	520-524
Number of pages	5
Journal	Journal of Nuclear Science and Technology
Volume	50
Issue number	5
DOIs	https://doi.org/10.1080/00223131.2013.785275
State	Published - 1 May 2013
Externally published	Yes

Keywords

I
I
mass spectrum
melting
transmutation rate
xenon

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10.1080/00223131.2013.785275

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@article{22a98547182c40a98bc85040b012140a,

title = "Determination of the 129I transmutation rate and 129I(n, 2n)128I correction using gas mass spectrometry",

abstract = "Two groups of 129I and 127I targets were analyzed using a gas quadrupole mass spectrometer (QMS) to determine the transmutation rates via the melting method. Sodium iodide was chosen to make the target. The iodine composition in the 129I targets is 82.7\% 129I and 17.3\% 127I. The transmutation rate of the 129I(n, γ)130I reaction was determined by measuring the 130Xe with QMS. An equivalent corrective method was brought out to correct the 129I(n, 2n)128I branch which is interfered with by the 127I(n, γ)128I reaction. And the correction formula was deduced in theory. For very little 128Xe from the 129I(n, 2n)128I reaction, the equivalent corrective method could not be suitable here. However, it is suitable for the mass of 128Xe from 129I(n,2n)128I reaction that reaches the accurately detective level of the mass spectrometry.",

keywords = "I, I, mass spectrum, melting, transmutation rate, xenon",

author = "Xuesong Li and Xiaoping Ouyang and Xiaobing Pan and Guanyi Wei and Jing Tu",

year = "2013",

month = may,

day = "1",

doi = "10.1080/00223131.2013.785275",

language = "英语",

volume = "50",

pages = "520--524",

journal = "Journal of Nuclear Science and Technology",

issn = "0022-3131",

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TY - JOUR

T1 - Determination of the 129I transmutation rate and 129I(n, 2n)128I correction using gas mass spectrometry

AU - Li, Xuesong

AU - Ouyang, Xiaoping

AU - Pan, Xiaobing

AU - Wei, Guanyi

AU - Tu, Jing

PY - 2013/5/1

Y1 - 2013/5/1

N2 - Two groups of 129I and 127I targets were analyzed using a gas quadrupole mass spectrometer (QMS) to determine the transmutation rates via the melting method. Sodium iodide was chosen to make the target. The iodine composition in the 129I targets is 82.7% 129I and 17.3% 127I. The transmutation rate of the 129I(n, γ)130I reaction was determined by measuring the 130Xe with QMS. An equivalent corrective method was brought out to correct the 129I(n, 2n)128I branch which is interfered with by the 127I(n, γ)128I reaction. And the correction formula was deduced in theory. For very little 128Xe from the 129I(n, 2n)128I reaction, the equivalent corrective method could not be suitable here. However, it is suitable for the mass of 128Xe from 129I(n,2n)128I reaction that reaches the accurately detective level of the mass spectrometry.

AB - Two groups of 129I and 127I targets were analyzed using a gas quadrupole mass spectrometer (QMS) to determine the transmutation rates via the melting method. Sodium iodide was chosen to make the target. The iodine composition in the 129I targets is 82.7% 129I and 17.3% 127I. The transmutation rate of the 129I(n, γ)130I reaction was determined by measuring the 130Xe with QMS. An equivalent corrective method was brought out to correct the 129I(n, 2n)128I branch which is interfered with by the 127I(n, γ)128I reaction. And the correction formula was deduced in theory. For very little 128Xe from the 129I(n, 2n)128I reaction, the equivalent corrective method could not be suitable here. However, it is suitable for the mass of 128Xe from 129I(n,2n)128I reaction that reaches the accurately detective level of the mass spectrometry.

KW - I

KW - mass spectrum

KW - melting

KW - transmutation rate

KW - xenon

UR - https://www.scopus.com/pages/publications/84877681605

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DO - 10.1080/00223131.2013.785275

M3 - 文章

AN - SCOPUS:84877681605

SN - 0022-3131

VL - 50

SP - 520

EP - 524

JO - Journal of Nuclear Science and Technology

JF - Journal of Nuclear Science and Technology

IS - 5

ER -

Determination of the ¹²⁹I transmutation rate and ¹²⁹I(n, 2n)¹²⁸I correction using gas mass spectrometry

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Keywords

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