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Rossi, F.; 小泉 光生; Rodriguez, D.; 高橋 時音
Proceedings of INMM & ESARDA Joint Annual Meeting 2023 (Internet), 5 Pages, 2023/05
Since 2015, the Integrated Support Center for Nuclear Nonproliferation and Nuclear Security (ISCN) of the Japan Atomic Energy Agency has been working on the development of the Delayed Gamma-ray Spectroscopy non-destructive assay technique for the quantification of fissile-nuclide content in mixed nuclear materials. Thanks to the efforts and lessons learned from past experiments, the ISCN has successfully designed and fabricated a final integrated instrument. The instrument is composed of a moderator and dose shield where different neutron sources, like Cf-252 and neutron generators, can be inserted to irradiate the sample. Within the moderator, a series of neutron detectors are installed for perform prompt neutron analysis and continuous monitoring of the neutron source emission. Thanks to an innovative transfer system, the sample is then moved to the gamma-ray detector in less than 1.5s providing a fast and reliable movement while being safe from possible contamination. In this work, we will describe the design details of this new instrument. This work is supported by the Japanese Ministry of Education, Culture, Sports, Science, and Technology (MEXT) under the subsidy for the "promotion for strengthening nuclear security and the like".
青木 里英; 白藤 雅也; 野崎 天生; 阿久津 成美*; 宮地 紀子; 中村 仁宣
Proceedings of INMM & ESARDA Joint Annual Meeting 2023 (Internet), 7 Pages, 2023/05
In order to ensure transparency in the peaceful use of nuclear materials in Japan, it is important to appropriately respond to safeguards activities conducted by the IAEA/Japan. In order to strengthen activities to appropriately respond to safeguards activities, JAEA has started the following one activity of (1) for all employees in JAEA to promote understanding and raise awareness of safeguards and three activities of (2) for the employees involved in safeguards activities to appropriately respond on-site to the activities since FY2020: (1) Education on the basis of safeguards, (2-1) Lectures, (2-2) Case studies and (2-3) Standardization of procedures related to safeguards response. In Activity (1), the employees were required to understand Safeguards framework, safeguards activities and provisions of information to Nuclear Regulation Authority in Japan with developed education material, and to pass a confirmation test in FY2022. Accordingly, it was confirmed that understanding for safeguards was successfully promoted since 100% employees passed the test. In Activity (2-1), lectures were provided by experts of safeguards to make the employees reacknowledged the importance of transparency in the peaceful use of nuclear materials and the effect of inappropriate response to safeguards activities. In Activity (2-2), a material for case studies was developed including examples of inappropriate response to safeguards activities and the case studies were conducted by the employees based on the material for recognizing familiar risks of safeguards. The result of questionnaire in FY2022 indicated participants tended to become deeply understanding of familiar risk in each site through the case studies. In Activity (2-3), standard safeguards procedure for whole JAEA was developed to improve the procedures in each site based on the standard procedure and to standardize the response to safeguards throughout JAEA.
Rodriguez, D.; Abbas, K.*; Bertolotti, D.*; Bonaldi, C.*; Fontana, C.*; 藤本 正己*; Geerts, W.*; 小泉 光生; Macias, M.*; Nonneman, S.*; et al.
Proceedings of INMM & ESARDA Joint Annual Meeting 2023 (Internet), 8 Pages, 2023/05
Under the MEXT subsidy to improve nuclear security related activities, we present the overview of the JAEA-JRC delayed gamma-ray spectroscopic analysis project. We describe past results, recent joint experiments, and the final goals for this project.
Rossi, F.; 小泉 光生; Rodriguez, D.; 高橋 時音
Proceedings of INMM 63rd Annual Meeting (Internet), 5 Pages, 2022/07
With the initial goal of fissile-nuclide content quantification in small samples containing uranium and plutonium, the Integrated Support Center for Nuclear Nonproliferation and Nuclear Security of the Japan Atomic Energy Agency is developing the Delayed Gamma-ray Spectroscopy non-destructive assay technique. For this, while in the past years several experiments were conducted to prove the feasibility of the technique, a new instrument was designed considering the previous lessons learned. It includes a modular insertion for different neutron sources, like radioisotopes or neutron generators; a gamma-ray detector with improved data acquisition system allowing for real-time dead-time correction; and a full new mechanism for the sample transfer between irradiation and measurement. Together with this, neutron detectors are integrated to supplement the DGS mass analysis and monitor the source intensity. In this work, we will describe the new instrument and the preliminary results obtained from instrument characterization compared to previous experiments. This work is supported by the Japanese Ministry of Education, Culture, Sports, Science, and Technology (MEXT) under the subsidy for the "promotion for strengthening nuclear security and the like". This work was done under the agreement between JAEA and EURATOM in the field of nuclear material safeguards research and development.
中谷 隆良; 清水 亮; 田崎 真樹子; 木村 隆志; 玉井 広史; 須田 一則
第42回日本核物質管理学会年次大会会議論文集(インターネット), 4 Pages, 2021/11
現在、原子力機構は保有する原子力施設の廃止措置を進めているところであり、対象には核物質を保有している施設もある。廃止措置作業では、核燃料物質を含む発生する放射性廃棄物の処理や保障措置終了手法も含め、核不拡散・透明性を維持しつつ、合理的な手法の検討は必要である。本研究では、国際原子力機関(IAEA)が整備するSafeguards by Design (SBD: 設計段階からの保障措置の検討)のガイダンス等を参考に、廃棄物処理に関して上記課題を考察する。
Rodriguez, D.; Abbas, K.*; 小泉 光生; Nonneman, S.*; Rossi, F.; 高橋 時音
Nuclear Instruments and Methods in Physics Research A, 1014, p.165685_1 - 165685_10, 2021/10
被引用回数:4 パーセンタイル:57.13(Instruments & Instrumentation)Under the MEXT subsidy on research for improving nuclear security related development, we designed the Delayed Gamma-ray Californium Test (DGCT) instrument. From He-3 count-rate experiments performed in collaboration with the European Commission Joint Research Centre, we show the effective neutron flux entering the sample space. Further, we show delayed gamma-ray spectra of both U and Pu samples as well as a comparison to the background from Cf activation of the environment. Finally, we make comparisons to earlier spectra obtained using PUNITA, including relative fission capability, spectral signature, and mass correlations.
Rossi, F.; Abbas, K.*; 小泉 光生; Lee, H.-J.; Rodriguez, D.; 高橋 時音
Proceedings of INMM & ESARDA Joint Virtual Annual Meeting (Internet), 7 Pages, 2021/08
The Japan Atomic Energy Agency is developing the Delayed Gamma-ray Spectroscopy (DGS) non-destructive assay technique to quantify the fissile-nuclide content in small samples of mixed nuclear materials. One of our primary goals is to develop a compact and efficient DGS instrument to be easily installable into analytical laboratories. The instrument should include an external neutron source and a gamma-ray detection system along with other supporting systems like sample transfer and neutron monitoring. One of the challenges is to design a compact and efficient moderator for commercial neutron sources (e.g. neutron generators or sealed radioactive sources) that emit neutrons with high energy. However, to be able to enhance the gamma-ray signal from fissile materials, thermal neutrons are best due to their higher fission cross-sections. The choice of viable neutron source (neutron spectrum and strength) depends on several considerations (e.g. sample type and interrogation pattern), but also affect the gamma-ray measurement and the consequence analysis. In this work, we will first describe the evaluation results of our Delayed Gamma-ray Test Spectrometer using a 
Cf source (DGTS-C) from the first experiment carried out in PERLA in collaboration with the European Commission, Joint Research Centre. In association, we will describe how it provided guidance for our demonstration irradiator. Further, we will present our final moderator design concept for a deuterium-deuterium (D-D) neutron generator and present the latest results of data-model comparisons, including those with our PUNITA results. This work is supported by the Japanese Ministry of Education, Culture, Sports, Science, and Technology (MEXT) under the subsidy for the "promotion for strengthening nuclear security and the like". This work was done under the agreement between JAEA and EURATOM in the field of nuclear material safeguards research and development.
Rodriguez, D.; Bogucarska, T.*; 小泉 光生; Lee, H.-J.; Pedersen, B.*; Rossi, F.; 高橋 時音; Varasano, G.*
Nuclear Instruments and Methods in Physics Research A, 997, p.165146_1 - 165146_13, 2021/05
被引用回数:2 パーセンタイル:18.91(Instruments & Instrumentation)Under the MEXT subsidy to strengthen nuclear security related research, the ISCN is developing delayed gamma-ray spectroscopy (DGS) for nuclear safeguards. Here we present results from experiments using the PUNITA instrument in collaboration with JRC-Ispra to evaluate the gamma-ray spectral dependence on interrogation time patterns and number of cycles. Specifically, we investigated the observable gamma rays useful to quantify the 
Pu and 
U contributions. Of the time patterns tested in this study, we determined that irradiating the sample for 60-
followed by a gamma-ray measurement of 60- was the best for a comparable one-hour total interrogation time.
Rossi, F.; 小泉 光生; Lee, H.-J.; Rodriguez, D.; 高橋 時音; Abbas, K.*; Bogucarska, T.*; Crochemore, J.-M.*; Pedersen, B.*; Varasano, G.*
61st Annual Meeting of the Institute of Nuclear Materials Management (INMM 2020), Vol.2, p.907 - 911, 2021/00
Delayed Gamma-ray Spectroscopy (DGS) is a nondestructive assay technique with the capability to quantify the fissile composition of small nuclear material samples from reprocessing plants. In recent years, the Japan Atomic Energy Agency in collaboration with the Joint Research Centre performed several experiments using uranium and plutonium standard samples. In this paper, we present some of our recent experiment results showing the feasibility of DGS for fissile mass estimation. In particular, we interrogate uranium samples of different enrichment and we are showing that we were able to qualify significant peaks even for a depleted uranium sample above 2.7 MeV. Applying correction factors for neutron self-shielding and gamma self-absorption, we obtained a mass linear correlation when considering total integrated counts above 3.3 MeV as well as specific individual peak counts. This work is supported by the Japanese Ministry of Education, Culture, Sports, Science, and Technology (MEXT) under the subsidy for the "promotion for strengthening nuclear security and the like". This work was done under the agreement between JAEA and EURATOM in the field of nuclear material safeguards research and development.
Rodriguez, D.; 小泉 光生; Rossi, F.; 瀬谷 道夫; 高橋 時音; Bogucarska, T.*; Crochemore, J.-M.*; Pedersen, B.*; 高峰 潤
Journal of Nuclear Science and Technology, 57(8), p.975 - 988, 2020/08
被引用回数:4 パーセンタイル:35.51(Nuclear Science & Technology)Present safeguards verification methods of high-radioactivity nuclear material use destructive analysis techniques since passive nondestructive techniques are incapable of determining the nuclear material content. To improve this verification process, the JAEA and EC-JRC Ispra, Italy have been collaborating to develop delayed gamma-ray spectroscopy for composition analysis of the fissile nuclides as an aspect of the MEXT subsidy for improving nuclear security and the like. Multiple experiments were performed over three years using PUNITA to interrogate U and Pu samples to determine the signature from the short-lived fission products. We observed many gamma rays useful to determine the composition of a mixed nuclear material sample. Presented here are the results of these measurements with correlations to the interrogation, mass, volume, and sample homogeneity.
青木 健; Chirayath, S. S.*; 相楽 洋*
Annals of Nuclear Energy, 141, p.107325_1 - 107325_7, 2020/06
被引用回数:2 パーセンタイル:24.28(Nuclear Science & Technology)PREATORコード及び68の属性入力データを用いて、高温ガス炉のTRU燃料サイクルにおける不活性母材燃料の核拡散抵抗性を評価し、軽水炉を用いたウラン-プルトニウム混合酸化物(MOX)燃料サイクルと比較した。本研究の目的は不活性母材燃料の化学的安定性や燃料照射による核拡散抵抗性に対する影響を同定することである。不活性母材燃料特有の低いプルトニウム含有量や黒鉛セラミックス被覆、U不使用といった物質的特性がMOX燃料に対する相対的な核拡散抵抗性の向上に寄与することを明らかにした。また未照射不活性母材燃料(1か月の転用適時性検知目標を有する未照射直接使用物質)の包括的核拡散抵抗値は照射済MOX燃料(3か月の転用適時性検知目標を有する照射済照射直接使用物質)と同程度であることを明らかにした。最終結果は不活性母材燃料の管理における保障措置の査察頻度の低減を示唆している。
Cf for safeguards verification measurementsRodriguez, D.; Rossi, F.; 高橋 時音; 瀬谷 道夫; 小泉 光生
Applied Radiation and Isotopes, 148, p.114 - 125, 2019/06
被引用回数:5 パーセンタイル:48.99(Chemistry, Inorganic & Nuclear)Delayed gamma-ray spectroscopy is an active-NDA technique used to determine the composition of HRNM samples by peak-ratio comparison of GRs above 3-MeV from the short-lived fission products. Filtering out the passive GRs from long-lived FPs reduces the DGS signal, so thermal neutrons are used to induce more fission events from fissile nuclides. We are developing a compact system to moderate 
2-MeV neutrons that are easier to moderate than 14-MeV neutrons from DT generators. This work describes the ideal moderator optimization for a Cf source that results in 
cm
passing through the sample space with 
70% of those below 1-eV. Practical modifications resulted in 
20% reductions compared to the optimized design. Evaluations of DGS signals and backgrounds conclude that only a 21-MBq Cf source is required.
Rossi, F.; Rodriguez, D.; 高橋 時音; 瀬谷 道夫; 小泉 光生
日本核物質管理学会第39回年次大会論文集(CD-ROM), 3 Pages, 2018/11
この発表では、再処理施設の溶解溶液等の高放射性核物質サンプルの核分裂性核種比の検認に適用される、遅発ガンマ線分光非破壊分析システムの減速体(反射体)のコンパクト性を追求する設計研究について報告する。我々は、最初に小型中性子源としてDT及びDD中性子源を使った場合の有利、不利を調べた。この結果、DD中性子源がコンパクトで実用的なNDAシステムが達成できることが示された。ここではMCNPシミュレーションにより実施した、DD中性子源を使う予備的な最適化設計を報告する。
Rodriguez, D.; Rossi, F.; 瀬谷 道夫; 小泉 光生
Proceedings of 2017 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC 2017) (Internet), 3 Pages, 2018/11
The JAEA and EC JRC are collaborating to improve the ability to quantify the uranium and plutonium content of highly radioactive and mixed nuclear material for nuclear safeguards verification. A separate program focuses on improving the capability to measure, analyze, and predict the delayed gamma-ray spectrum used to determine the nuclide ratios within a sample. Measurements performed at the JRC-Ispra are used to correlate the observed DGs to the composition that are then used to calibrate a DG Monte Carlo. The MC has the ability to predict expected DGs, provide a sensitivity analysis to optimize future measurements, and can be used to analyze a spectrum using an inverse MC technique. Analyzing MC with this IMC analysis provides a way to determine systematic uncertainty as well as statistical uncertainty when multiple measurements are not feasible. This work will describe the efforts to develop the DGSMC and how it will be utilized for current and future applications.
-ray pipe-monitoring capabilities for real-time process monitoring safeguards applications in reprocessing facilitiesRodriguez, D.; 谷川 聖史; 西村 和明; 向 泰宣; 中村 仁宣; 栗田 勉; 高峰 潤; 鈴木 敏*; 関根 恵; Rossi, F.; et al.
Journal of Nuclear Science and Technology, 55(7), p.792 - 804, 2018/07
被引用回数:0 パーセンタイル:0.01(Nuclear Science & Technology)再処理施設の核物質に対しては、ランダムサンプル検認と、追加的な重要タンク内溶液の体積、質量のみの連続監視システムによる"知識の連続性"保持により、保障措置が掛けられている。核物質溶液がタンク及び工程装置を結ぶ配管を流れる際に、特徴的なを測定し、核物質を実時間で検認することで、工程監視を改善できる可能性がある。われわれは、東海再処理工場の転換技術開発施設で、このパイプモニタリングを、硝酸Pu移送の際に試した。この際測定は、ランタン・ブロマイド検出器、及びの計数時刻とエネルギーを記録するリストモード・データ取得システムを用いて実施した。この測定結果とその分析は、配管内溶液の同位体組成、工程移動時刻、(単位時間当たりの)溶液流量及び移動溶液量を求められる能力を実証するものであり、実際に適用可能な保障措置検認工程監視の導入に繋がる。
Rodriguez, D.; Rossi, F.; 高橋 時音; 瀬谷 道夫; 小泉 光生; Crochemore, J. M.*; Varasano, G.*; Bogucarska, T.*; Abbas, K.*; Pedersen, B.*
Proceedings of INMM 59th Annual Meeting (Internet), 7 Pages, 2018/07
DGS has great potential for HRNM, since it determines fissile nuclide compositions by correlating the observed DG spectrum to the unique FY of the individual nuclides. Experiments were performed with LRNM using both PUNITA and a JAEA designed Cf-shuffler tested in PERLA. The data was analyzed using an inverse MC method that both determines DG peak intensity correlations and provides an evaluation of the uncertainty of the measurements. The results were used to verify DG signatures for varying fissile compositions, total fissile content, and DGS interrogation timing patterns. Future development will focus on measuring HRNM and designing a compact system by evaluating different neutron sources, moderating materials, and detection capabilities. This presentation summarizes the JAEA/JRC DGS program to date and the future direction of this collaborative work performed using the MEXT subsidy for the promotion of strengthening nuclear security.
鈴木 美寿
Risk Assessment, p.133 - 151, 2018/02
統合型リスク評価が、安全、セキュリティ及び保障措置の間のシナジー効果を促進するものとして開発される。統合型3Sリスク評価のシナジー効果の一つとして、これから建設する原子力施設の設計段階から3S対応を取り込む方法が考えられる。安全分野では、基本事象のデータを用いてシビアアクシデントの頻度を見積る。最近のセキュリティ事案に対する懸念もあり、ETs/FTsの手法に基づく枢要区域特定手法は原子力発電所の枢要設備に対するサボタージュ防護を調べるために用いられている。異なる困難は保障措置におけるリスク評価においてもあり、核物質の転用やミスユースは施設者や国家の意図的な動機によって起こることから、その起点を推測することは一般的に困難である。本章では、3S間の最適で費用対効果を有する管理を追及して3Sリスク間のバランスについて調べる。
Paradela, C.*; Heyse, J.*; Kopecky, S.*; Schillebeeckx, P.*; 原田 秀郎; 北谷 文人; 小泉 光生; 土屋 晴文
EPJ Web of Conferences, 146, p.09002_1 - 09002_4, 2017/09
被引用回数:9 パーセンタイル:97.81(Nuclear Science & Technology)Neutron-induced reactions can be used to study the properties of nuclear materials in the field of nuclear safeguards and security. The elemental and isotopic composition of these materials can be determined by using the presence of resonance structures in the reaction cross sections as fingerprints. This idea is the basis of two non-destructive analytical techniques which have been developed at the GELINA neutron time-of-flight facility of the JRC-IRMM: Neutron Resonance Capture Analysis (NRCA) and Neutron Resonance Transmission Analysis (NRTA). A full quantitative validation of the NRTA technique was obtained by determining the areal densities of enriched reference samples used for safeguards applications with an accuracy better than 1%. Moreover, a combination of NRTA and NRCA has been proposed for the characterisation of particle-like debris of melted fuel formed in severe nuclear accidents. In order to deal with the problems due to the diversity in shape and size of these samples and the presence of strong absorbing matrix materials, new capabilities have been implemented in the resonance shape analysis code REFIT. They have been validated by performing a blind test in which the elemental abundance of a combined sample composed of unknown quantities of materials such as cobalt, tungsten, rhodium or gold was determined with accuracies better than 2%.
細馬 隆
JAEA-Research 2016-019, 53 Pages, 2017/01
JAEA-Research-2016-019.pdf:5.71MB
核物質非破壊測定システムの基礎への確率母関数の適用について研究を行った。最初に、高次の中性子相関を七重相関まで代数的に導出し、その基本的な性格を調べた。高次の中性子相関は、漏れ増倍率の増大に応じて急速に増大し、検出器の効率や設定によるが漏れ増倍率が1.3を超えると、より低次の中性子相関と交わり追い越してゆくことを見出した。続いて、高速中性子と熱中性子が共存する系において、高速中性子による核分裂数と二重相関計数率及び熱中性子による核分裂数と二重相関計数率を、代数的に導出した。従来の測定法と、differential die-away self-interrogation法によって得られるRossi-alpha結合分布と各エリアの面積比を用いれば、高速中性子と熱中性子それぞれの単位時間あたりの誘導核分裂数、ソース中性子1個あたりそれぞれの誘導核分裂数(1未満)及びそれぞれの二重相関計数率を、推定可能であることを見出した。
直井 洋介; 小田 哲三; 富川 裕文
日本原子力学会誌ATOMO
, 58(9), p.536 - 541, 2016/09
日本は1955年に制定された原子力基本法に従い、原子力の研究開発、原子力エネルギーの利用を平和目的に限って推進してきた。平和目的に限られていることを担保するため、事業者は計量管理を行い、IAEAと保障措置協定を締結する以前は二国間原子力協定(日米,日仏,日加等)に基づき報告を行い、1977年のIAEAとの保障措置協定を締結後は国内法が改定され、それに基づき計量管理及びその報告が行われてきた。1999年には追加議定書を締結して新たな義務を負うIAEAの保障措置活動に対応してきており、これまでわが国の原子力活動についての申告の正確性と完全性がIAEAによって検認されてきている。2004年には、核物質の転用や未申告の活動はないとの「拡大結論」を得て以降、これまで毎年この拡大結論を得てきている。本報告では、原子力機構がこれまで取り組んできたIAEAの保障措置に必要な技術開発や人材育成への協力などIAEA保障措置活動への貢献について報告する。
