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土川 雄介; 甲斐 哲也; Parker, J.*; 松本 吉弘*; 篠原 武尚
Scientific Reports (Internet), 15, p.7687_1 - 7687_8, 2025/03
被引用回数:1 パーセンタイル:85.83(Multidisciplinary Sciences)J-PARC/MLFで、元素の二次元分布を可視化する中性子共鳴吸収イメージング技術を開発した。鉄、ジルコニウム、ニッケル、モリブデン、アルミニウム棒を含む試料を用い、1eVから100keVまでの中性子透過スペクトルを利用する解析を行った。ハフニウム(ジルコニウムの不純物)とモリブデンの分布に関しては、従来の共鳴イメージングによって明瞭な分布が得られた。次に、各元素の複数の共鳴を利用した分析を行ったところ、元素同定の精度が向上し、鉄とニッケルの識別能が向上した。一方で、このような解析法では、たまたま他元素由来の異なる共鳴ピーク同士が隣り合うことで、中性子透過軸上に物質が重なった場合にそれらの共鳴が消失するような現象が起きた場合に対応できない。鉄とニッケルのケースで、実際にその現象が現われた。この問題を克服し、測定技術としての更なる進化を目指し、存在する可能性のある元素の存在を仮定して広い範囲で透過スペクトルをフィッティングする手法を提案した。これにより、試料金属とハフニウムやマンガン(ジルコニウムや鉄の不純物)の分布を可視化することに成功した。ここで導入された分析手法は、MLFの一般利用者の標準的な分析手順の確立に貢献するものである。
田久 創大*; 松本 謙一郎*; 平出 哲也; 錦戸 文彦*; 赤松 剛*; 田島 英朗*; 高橋 美和子*; 山谷 泰賀*
Japanese Journal of Applied Physics, 63(8), p.086003_1 - 086003_8, 2024/08
被引用回数:1 パーセンタイル:35.22(Physics, Applied)陽電子と電子は、生体内で結合状態をとることがあり、ポジトロニウム(Ps)と呼ぶ。三重項Ps(ortho-Ps)が消滅するのにかかる時間はortho-Psピックオフ消滅寿命と言い、周囲の電子密度に応じて変化する。この寿命値はPETスキャン情報に新しい生物学的情報を追加できる可能性がある。ortho-Ps寿命による生体内の(フリー)ラジカルの定量化の実現可能性を議論するために、我々は臨床PETシステムを使用してラジカルを含む水溶液中のPs寿命を測定した。結果は、陽電子消滅イベントの計数統計が10
イベント以上であれば、数mMオーダーの水溶液中のラジカル濃度の差はoetho-Ps寿命によって定量化できることを示唆した。しかし、この濃度は、生体の生理機能で生成されるラジカル濃度よりも高かった。
木村 祥紀; 松本 哲也*; 山口 知輝
Journal of Radioanalytical and Nuclear Chemistry, 333(7), p.3541 - 3551, 2024/07
被引用回数:0 パーセンタイル:0.00(Chemistry, Analytical)This study discusses the application of a deep metric learning model based on a convolutional neural network to scanning electron microscope image analysis to determine UOC samples. One of the unique features of this technique is that it can detect a sample that comes from an unknown material not listed in the reference for comparison, in addition to the classification of a sample based on surface characteristics captured in the microscopic images. It was confirmed that the present technique could detect hypothetical unknown samples with 
0.8 of Area Under the ROC Curve, and it can effectively provide preliminary observations in nuclear forensics analysis.
mixed oxidesVauchy, R.; 松本 卓; 廣岡 瞬; 宇野 弘樹*; 田村 哲也*; 有馬 立身*; 稲垣 八穂広*; 出光 一哉*; 中村 博樹; 町田 昌彦; et al.
Journal of Nuclear Materials, 588, p.154786_1 - 154786_13, 2024/01
被引用回数:6 パーセンタイル:84.29(Materials Science, Multidisciplinary)Diffusion couples made of dense polycrystalline (U,Pu,Am)O oxides were annealed in various thermodynamic conditions (temperature, oxygen partial pressure), and for different durations. The associated actinide redistribution was quantified using Electron Probe Micro-Analysis (EPMA). Average diffusion profiles were obtained from elemental U, Pu, and Am X-ray maps and the resulting interdiffusion coefficients were calculated, then analyzed at the light of our model of point defect chemistry.
Pt
Ga
松本 裕司*; 芳賀 芳範; 山本 悦嗣; 竹内 徹也*; 三宅 厚志*; 徳永 将史*
Journal of the Physical Society of Japan, 90(7), p.074707_1 - 074707_6, 2021/07
被引用回数:2 パーセンタイル:21.70(Physics, Multidisciplinary)A uranium intermetallic compound UPtGa was successfully synthesized. This compound crystallizes in the hexagonal Sc
FeSi
-type structure. Antiferromagnetic transition with highly magnetic anisotropy was established by the physical property measurements.
土川 雄介; 阿部 雄太; 大石 佑治*; 甲斐 哲也; 藤 暢輔; 瀬川 麻里子; 前田 亮; 木村 敦; 中村 詔司; 原田 正英; et al.
JPS Conference Proceedings (Internet), 33, p.011074_1 - 011074_6, 2021/03
福島原子力発電所の解体作業では、溶融した燃料棒に含まれるホウ素分布を事前に把握することが重要である。溶融燃料棒の模擬試験体を用意し、ホウ素やホウ化物の含有量を調査する研究が行われてきた。本研究では、その一環として中性子を用いたホウ素並びにホウ化物分布の測定技術開発を行った。ホウ素の中性子吸収に伴う即発ガンマ線を測定し、ホウ素量や二次元分布を測定した。また、n(B,
)反応における478keV線は、ホウ素の化合状態により、線ピークの幅が変化することが知られている。このことを用い、特に溶融燃料棒周辺に存在することが予測されているZrBやFeBといったホウ化物の識別可能性について調査した。測定はJ-PARC/MLFのANNRI, NOBORU, RADENにて行った。これらの解析結果について報告する。
阿部 雄太; 土川 雄介; 甲斐 哲也; 松本 吉弘*; Parker, J. D.*; 篠原 武尚; 大石 佑治*; 加美山 隆*; 永江 勇二; 佐藤 一憲
JPS Conference Proceedings (Internet), 33, p.011075_1 - 011075_6, 2021/03
Since the hardness of fuel debris containing boride from B
C pellet in control rod is estimated to be two times higher as that of oxide, such as UO
and ZrO, distribution of such boride in the fuel debris formed in the Fukushima-Daiichi Nuclear Power Plants may affect the process of debris cutting and removal. The high neutron absorption of boron may affect the possibility of re-criticality during the process of debris removal. Therefore, boride distribution in fuel debris is regarded as an important issue to be addressed. However, boron tends to have difficult in quantification with conventionally applied methods like EPMA and XPS. In this study, accelerator-driven neutron-imaging system was applied. Since boron is the material for neutron absorption, its sensitivity in terms of neutron penetration through specimens is concerned. To adjust neutron attenuation of a specimen to suit a particular measurement by selecting the neutron energy range, we focused on the energy resolved neutron imaging system RADEN, which utilizes wide energy range from meV to keV. Development of a method to visualize boron distribution using energy-resolved neutrons has been started. In this presentation the authors show the status of the development of a method utilizing energy-resolved neutrons and provide some outcome from its application to the Core Material Melting and Relocation (CMMR)-0 and -2 specimens.
阿部 雄太; 土川 雄介; 甲斐 哲也; 松本 吉弘*; Parker, J. D.*; 篠原 武尚; 大石 佑治*; 加美山 隆*; 永江 勇二; 佐藤 一憲
Proceedings of 2020 International Conference on Nuclear Engineering (ICONE 2020) (Internet), 6 Pages, 2020/08
Boron carbide is used as a neutron-absorbing material in Fukushima-Daiichi Nuclear Power Station (1F), producing borides that are twice as hard as oxides (such as UO and ZrO). The high neutron absorption of boron affects the evaluation of re-criticality during the process of debris retrieval. Therefore, it is important not only to determine the presence of boron but also to investigate the distribution of boron inside the material in a non-destructive manner during decommissioning. To address the uncertainties in the core material relocation behavior of boiling water reactor (BWR) during a severe accident (SA), solidified melt specimens of a simulated fuel assembly were prepared by plasma heating. If core material melting and relocation (CMMR) specimens can be used to estimate the B distribution in 1F Unit-3, that will provide valuable information in the decommissioning of 1F. To address this, the authors focused on the energy-resolved neutron imaging system, RADEN, which utilizes a wide energy range, from meV to keV. This is an innovative three-dimensional analysis technology for boride distribution that affects the evaluation of hardness and re-criticality. In the calibration standard samples (Zr
B
and FeB), there was a good correlation between boron concentration and the energy-dependence of the cross sections of cold and epi-thermal neutrons. In the CMMR specimens, boron distribution was confirmed from the contrast difference between cold and epi-thermal neutrons. In the future, the results of calibration standard samples will be applied to the results of CMMR specimens. With this method, three-dimensional boron distribution will be measured, and the understanding of boride distribution 1F Unit-3 will be improved, which may be reflected in an improved SA code.
Parker, J. D.*; 原田 正英; 林田 洋寿*; 廣井 孝介; 甲斐 哲也; 松本 吉弘*; 中谷 健; 及川 健一; 瀬川 麻里子; 篠原 武尚; et al.
Materials Research Proceedings, Vol.15, p.102 - 107, 2020/05
At the RADEN instrument, we take advantage of the accurate measurement of neutron energy by time-of-flight to perform energy-resolved neutron imaging using event-type neutron imaging detectors. We are continually working to improve these detectors for better spatial resolution and shorter measurement times and, as a user facility, to improve the ease-of-use of their control and analysis software. In particular, we are actively developing a 
He-based gaseous micropattern detector known as the Micro-pixel chamber based Neutron Imaging Detector (
NID). We have recently redesigned the NID control software to allow full integration into the automated experiment control system at RADEN, and we are carrying out optimization of the analysis algorithms for improved image quality and rate performance.
篠原 武尚; 甲斐 哲也; 及川 健一; 中谷 健; 瀬川 麻里子; 廣井 孝介; Su, Y. H.; 大井 元貴; 原田 正英; 飯倉 寛; et al.
Review of Scientific Instruments, 91(4), p.043302_1 - 043302_20, 2020/04
被引用回数:79 パーセンタイル:97.38(Instruments & Instrumentation)The energy-resolved neutron imaging system, RADEN, has been installed at the pulsed neutron source in the Materials and Life Science Experimental Facility of the Japan Proton Accelerator Research Complex. In addition to conventional neutron radiography and tomography, RADEN, the world's first imaging beam-line at a pulsed neutron source, provides three main options for new, quantitative neutron imaging techniques: Bragg-edge imaging to visualize the spatial distribution of crystallographic information, resonance absorption imaging for elemental composition and temperature information, and polarized neutron imaging for magnetic field information. This paper describes the results of characterization studies of the neutronic performance and installed devices at RADEN and shows the results of several demonstration studies for pulsed neutron imaging.
甲斐 哲也; 篠原 武尚; 松本 吉弘*
検査技術, 25(2), p.1 - 5, 2020/02
J-PARC物質・生命科学実験施設に設置されたエネルギー分析型中性子イメージング装置RADENは、エネルギー分析を行わない中性子ラジオグラフィ/トモグラフィの利用でも相応の役割を果たしている。本稿では、検査技術の一つとしての検討材料を提供するため、これまでにRADENで中性子ラジオグラフィ/トモグラフィの利用で得られた成果について紹介する。
甲斐 哲也; 廣井 孝介; Su, Y. H.; 瀬川 麻里子; 篠原 武尚; 松本 吉弘*; Parker, J. D.*; 林田 洋寿*; 及川 健一
Materials Research Proceedings, Vol.15, p.149 - 153, 2020/02
A two-dimensional thermometry technique based on neutron resonance reactions derives the temperature of specified elements in an object by analyzing the Doppler broadening of a neutron resonance measured by a time-analyzing neutron imaging-detector. This technique is expected to be one of the important applications of the energy-resolved neutron imaging system, RADEN, at J-PARC. The authors focused on molybdenum contained in 316 stainless-steel (with a weight fraction of 2-3 wt%). Energy-dependent transmitted neutrons were measured through a 3 mm thick 316 stainless-steel plate placed in a heater at temperatures between 23 and 500 degrees Celsius at RADEN using a gas-electron multiplier (GEM) detector. Thermal and cold neutrons were eliminated from the incident beam by a cadmium filter. The sample area within the neutron beam was 30 by 50 mm
. The feasibility is discussed in the presentation.
及川 健一; 鬼柳 善明*; 佐藤 博隆*; 大前 良磨*; Pham, A.*; 渡辺 賢一*; 松本 吉弘*; 篠原 武尚; 甲斐 哲也; Harjo, S.; et al.
Materials Research Proceedings, Vol.15, p.207 - 213, 2020/02
Japanese swords are very attractive not only as a work of art but also a metallurgical point of view. Since Japanese vintage swords became valuable, it is indispensable to establish non-destructive analysis method to identify some peculiar characteristics. Bragg edge imaging gives real-space distributions of bulk information in a crystalline material as well as neutron tomography. In this work, we investigated crystallographic information of a Japanese sword made by Sukemasa in Izumi province in the first quarter of the 16th century. The experiments have been performed at RADEN at J-PARC. The Sukemasa sword was measured with a counting-type 2D detector and with a CCD camera. We are now analyzing the measured 2D-transmission spectra using RITS code to obtain spatial distribution of the crystallite size, the texture variation, the d110 shift and its broadening. Complementary data analysis using white beam tomography is also on going. Detailed analysis results will be presented.
庄司 衛太*; 磯谷 祥世*; 鈴木 陸人*; 久保 正樹*; 塚田 隆夫*; 甲斐 哲也; 篠原 武尚; 松本 吉弘*; 福山 博之*
Scripta Materialia, 175, p.29 - 32, 2020/01
被引用回数:24 パーセンタイル:75.12(Nanoscience & Nanotechnology)The effect of melt convection on the phase separation structures in undercooled Cu- Co alloys was investigated using the electromagnetic levitation technique, where the melt convection was controlled by applying a static magnetic field. The three-dimensional phase separation structures of the solidified Cu-Co alloys were first observed using neutron computed tomography. A large number of small spherical Co-rich phases were dispersed in the Cu-rich phase matrix when the static magnetic field was relatively small. In contrast, several coalesced Co-rich phases, which were elongated along the direction of the static magnetic field, appeared in the higher strength of static magnetic field.
清水 一行*; 林田 洋寿*; 戸田 裕之*; 甲斐 哲也; 松本 吉弘*; 松本 佳久*
日本金属学会誌, 83(11), p.434 - 440, 2019/11
被引用回数:1 パーセンタイル:4.90(Metallurgy & Metallurgical Engineering)Neutron imaging experiment was performed to visualize the distribution of solute hydrogen in an Al-10.1%Zn-1.2%Mg alloy and a pure palladium after hydrogen charging. Changes in the contrast of neutron transmission images caused by hydrogen were clearly observed in a palladium. In the wavelength range of 2-3 AA and 5-13.5 AA, the mean neutron transmission around the center of a hydrogen-charged palladium were 0.692 and 0.511, respectively. The hydrogen content in a palladium was estimated to be 10.8 mol% from the measured neutron transmission. This study has demonstrated that hydrogen content can be analyzed by considering the wavelength dependence of neutron intensity. On the other hand, hydrogen could not be observed from the neutron transmission image in Al-Zn-Mg alloys. This was due to the low hydrogen content, which was mass ppm level even after hydrogen charging, and statistical precision was not sufficient to discuss the amount of hydrogen of the mass ppm order.
甲斐 哲也; 佐藤 節夫*; 廣井 孝介; Su, Y. H.; 瀬川 麻里子; Parker, J. D.*; 松本 吉弘*; 林田 洋寿*; 篠原 武尚; 及川 健一; et al.
Physica B; Condensed Matter, 551, p.496 - 500, 2018/12
被引用回数:4 パーセンタイル:17.88(Physics, Condensed Matter)The 2012 model lithium-6 time-analyzer neutron detector (LiTA12) system, based on a lithium glass scintillator and multi-anode photomultiplier tube, has the highest neutron efficiency among the detectors for pulsed neutron imaging together with a flexibility of the efficiency by changing the thickness of the lithium glass. The authors expect this detector system could become a main detector system for the energy-resolved neutron imaging system, RADEN, at J-PARC, and have started evaluation of the LiTA12 system. For example, spatial resolution for resonance absorption imaging was evaluated by using a line-pair pattern made by 3 micro meter thick gold on a quartz plate. Less than 1 mm width line pairs were resolved at an 8 Mcps neutron counting rate and around 5 eV neutron energy.
及川 健一; Su, Y. H.; 鬼柳 亮嗣; 川崎 卓郎; 篠原 武尚; 甲斐 哲也; 廣井 孝介; Harjo, S.; Parker, J. D.*; 松本 吉弘*; et al.
Physica B; Condensed Matter, 551, p.436 - 442, 2018/12
被引用回数:6 パーセンタイル:26.43(Physics, Condensed Matter)We are promoting for practical product observation by the energy-resolved neutron imaging method using high-intensity pulsed neutrons at J-PARC, under the Photon and Quantum Basic Research Coordinated Development Program from the Ministry of Education, Culture, Sports, Science and Technology, Japan. Bragg edge imaging, one of the energy-resolved neutron imaging methods for visualizing material properties, was applied to feasibility study of the temperature distribution of copper rod, complementary study of the texture and strain distribution of bent steel plates using neutron diffraction and EBSD, and so on. Outline of results obtained by these imaging experiments will be presented.
瀬川 麻里子; 及川 健一; 甲斐 哲也; 篠原 武尚; 林田 洋寿*; 松本 吉弘*; Parker, J. D.*; 中谷 健; 廣井 孝介; Su, Y. H.; et al.
JPS Conference Proceedings (Internet), 22, p.011028_1 - 011028_8, 2018/11
We have fabricated and utilized spatial resolution test targets made of gadolinium and gold for conventional and resonance neutron imaging performed at RADEN, located at beam line BL22 of the J-PARC Materials and Life Science Experimental Facility (MLF). RADEN covers a broad energy range from cold neutrons to high-energy neutrons with energy of several tens keV and was designed to perform energy-resolved neutron imaging utilizing two-dimensional detectors combined with the accurate measurement of neutron energy by the time-of-flight method. The test targets were designed to verify the spatial resolution and image uniformity of two kinds of neutron detectors, counting-type detectors and camera-type detectors. In this presentation, we report the details of these two-dimensional test targets, and the results of demonstrations using the test targets with our neutron imaging detectors. This work was supported in part by the Photon and Quantum Basic Research Coordinated Development Program from the Ministry of Education, Culture, Sports, Science and Technology, Japan.
小山 拓*; 上野 一貴*; 関根 麻里子*; 松本 吉弘*; 甲斐 哲也; 篠原 武尚; 飯倉 寛; 鈴木 裕士; 兼松 学*
Materials Research Proceedings, Vol.4, p.155 - 160, 2018/05
被引用回数:0 パーセンタイル:0.00(Materials Science, Characterization & Testing)We developed, in this study, a novel method to observe internal deformation of concrete by the neutron transmission imaging technique. In order to visualize the internal deformation of concrete, the cement paste markers containing GdO
powder were two-dimensionally dispersed around the ferritic deformed rebar in the reinforced concrete. This experiment was conducted using BL22, RADEN, in the Material and Life Science Experimental Facility of the Japan Proton Accelerator Research Complex. The transmission images of the reinforced concrete sample were taken at several positions on the vertical sample stage, and the displacement of the marker from the initial position was successfully evaluated within approximately 
0.1 mm accuracy by image analysis for selected markers with higher contrast and circularity. Furthermore, concrete deformation under pull-out loading to the embedded rebar was evaluated by the same way, and its reaction compressive deformation was successfully observed by analyzing the displacement of the markers. The results obtained in this study bring beneficial knowledge that the measurement accuracy of the marker displacement can be improved more by choosing a spherical shape of the marker and by increasing the contrast of the marker.
甲斐 哲也; 廣井 孝介; Su, Y. H.; 篠原 武尚; Parker, J. D.*; 松本 吉弘*; 林田 洋寿*; 瀬川 麻里子; 中谷 健; 及川 健一; et al.
Physics Procedia, 88, p.306 - 313, 2017/06
被引用回数:7 パーセンタイル:91.92(Instruments & Instrumentation)Neutron resonance thermometry, which measures material temperature by analyzing the Doppler broadening of a neutron resonance peak, is one of the applications of energy-resolved neutron imaging at RADEN of J-PARC. Although this technique is promising, advantages and disadvantages have not been discussed in practical applications. The authors measured neutron transmission rates of tantalum and tungsten foils in a heater chamber up to 300 degrees Celsius at RADEN. The energy-dependent neutron transmission rates with different statistics were obtained after the measurements by selecting arbitrary measuring intervals from one measurement, and the temperatures of the foils were estimated from those transmission rates with different statistics. The reliability of the neutron resonance thermometry with statistical accuracy, irradiation time and spatial resolution are discussed.
