Near-infrared spectroscopy of tritiated water

Kaori Kobayashi; Tomoya Enokida; Daisuke Lio; Yuta Yamada; Masanori Hara; Yuji Hatano

doi:10.13182/FST11-A12570

Near-infrared spectroscopy of tritiated water

Kaori Kobayashi^*, Tomoya Enokida, Daisuke Lio, Yuta Yamada, Masanori Hara, Yuji Hatano

^*Corresponding author for this work

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

9 Scopus citations

Abstract

It is quite important to control and observe the concentration and total amount of tritium when nuclear fusion is utilized like ITER project. There are many kinds of molecular species, conditions, amount, and concentration in the environment and it is desirable to have multiple ways of observation. Tritium is often found as hydrogen, water and methane molecules. Their behavior differs by the molecular species and detection of molecular species is therefore important. Near-infrared spectroscopy can be a good molecular species sensitive method for this purpose. However, since basic spectroscopic information oftritiated water (HTO or T₂O) is unavailable, in this study we prepared tritiated water of high concentration, and carried out frequency modulation near-infrared spectroscopy. The tritiated water was synthesized by the oxidation reaction ofl Ci of T₂. Near-infrared spectra at 1.3 micron were recorded. Many lines were observed which are not due to normal water. They are strong candidates of tritiated water spectral lines.

Original language	English
Pages (from-to)	941-943
Number of pages	3
Journal	Fusion Science and Technology
Volume	60
Issue number	3
DOIs	https://doi.org/10.13182/FST11-A12570
State	Published - 2011/10

ASJC Scopus subject areas

Civil and Structural Engineering
Nuclear and High Energy Physics
Nuclear Energy and Engineering
General Materials Science
Mechanical Engineering

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Cite this

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title = "Near-infrared spectroscopy of tritiated water",

abstract = "It is quite important to control and observe the concentration and total amount of tritium when nuclear fusion is utilized like ITER project. There are many kinds of molecular species, conditions, amount, and concentration in the environment and it is desirable to have multiple ways of observation. Tritium is often found as hydrogen, water and methane molecules. Their behavior differs by the molecular species and detection of molecular species is therefore important. Near-infrared spectroscopy can be a good molecular species sensitive method for this purpose. However, since basic spectroscopic information oftritiated water (HTO or T2O) is unavailable, in this study we prepared tritiated water of high concentration, and carried out frequency modulation near-infrared spectroscopy. The tritiated water was synthesized by the oxidation reaction ofl Ci of T2. Near-infrared spectra at 1.3 micron were recorded. Many lines were observed which are not due to normal water. They are strong candidates of tritiated water spectral lines.",

author = "Kaori Kobayashi and Tomoya Enokida and Daisuke Lio and Yuta Yamada and Masanori Hara and Yuji Hatano",

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T1 - Near-infrared spectroscopy of tritiated water

AU - Kobayashi, Kaori

AU - Enokida, Tomoya

AU - Lio, Daisuke

AU - Yamada, Yuta

AU - Hara, Masanori

AU - Hatano, Yuji

PY - 2011/10

Y1 - 2011/10

N2 - It is quite important to control and observe the concentration and total amount of tritium when nuclear fusion is utilized like ITER project. There are many kinds of molecular species, conditions, amount, and concentration in the environment and it is desirable to have multiple ways of observation. Tritium is often found as hydrogen, water and methane molecules. Their behavior differs by the molecular species and detection of molecular species is therefore important. Near-infrared spectroscopy can be a good molecular species sensitive method for this purpose. However, since basic spectroscopic information oftritiated water (HTO or T2O) is unavailable, in this study we prepared tritiated water of high concentration, and carried out frequency modulation near-infrared spectroscopy. The tritiated water was synthesized by the oxidation reaction ofl Ci of T2. Near-infrared spectra at 1.3 micron were recorded. Many lines were observed which are not due to normal water. They are strong candidates of tritiated water spectral lines.

AB - It is quite important to control and observe the concentration and total amount of tritium when nuclear fusion is utilized like ITER project. There are many kinds of molecular species, conditions, amount, and concentration in the environment and it is desirable to have multiple ways of observation. Tritium is often found as hydrogen, water and methane molecules. Their behavior differs by the molecular species and detection of molecular species is therefore important. Near-infrared spectroscopy can be a good molecular species sensitive method for this purpose. However, since basic spectroscopic information oftritiated water (HTO or T2O) is unavailable, in this study we prepared tritiated water of high concentration, and carried out frequency modulation near-infrared spectroscopy. The tritiated water was synthesized by the oxidation reaction ofl Ci of T2. Near-infrared spectra at 1.3 micron were recorded. Many lines were observed which are not due to normal water. They are strong candidates of tritiated water spectral lines.

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Near-infrared spectroscopy of tritiated water

Abstract

ASJC Scopus subject areas

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