Presentation on theme: "IAEA International Atomic Energy Agency Data Centre Network, Code Centre Network, CRP Activities of AMDU B. J. Braams, H.-K. Chung 3 rd RCM of CRP on Light."— Presentation transcript:
IAEA International Atomic Energy Agency Data Centre Network, Code Centre Network, CRP Activities of AMDU B. J. Braams, H.-K. Chung 3 rd RCM of CRP on Light Elements in Plasma March 2013
IAEA Databases : ALADDIN Data list: Data from for evaluated / compiled data Data from CRPs recently ~17600 sets for A&M data (~ 8500 rad. rec. APID 16) ~ 6200 data for Surface data Data Development Consultancy by Eckstein on reflection and penetration data TM on Improving the Database for Physical and Chemical Sputtering Future Work Review of the data quality Improve the interface Data compilation and evaluation
IAEA Databases: AMBDAS Data Source Bibliographic data for spectroscopy from NIST No Bibliographic data for collisions available since 2010 Future Work Need to resume collisional data (DCN/NFRI) Add numerical data available for the bibliographic records (NFRI)
IAEA Planned Databases : Dust particles in collaboration with IPP-Garching
IAEA Knowledge base (wiki style) Introduction Data Needs Magnetic Confinement Fusion Inertial Confinement Fusion Atomic Data Molecular Data Plasma-Material Interaction Data Data Sources Online Databases Data Centers Code Centers Network Data Exchange Data Producers Directory Data Exchange Forum Special Topics IAEA Coordinated Research Projects (CRP) IAEA Workshops NLTE Kinetics Code Comparison Workshops ITPA (International Tokamak Physics Activity) European Fusion Development Agreement (EFDA) Fusion Research Magnetic Confinement Fusion Research Inertial Confinement Fusion Research Contents from INDC reports, APID volumes and Presentations Wider access increase visibility?
IAEA Databases Search Engine: GENIE Radiative properties – add Spectr-W3 Collisional data – add OPEN-ADAS and Spectr-W3
IAEA Data Centre Network (DCN) Terms of Reference: Domain: atomic and molecular (A+M), particle surface interaction (PSI) and bulk material properties (plasma-material interaction) data for fusion and other applications. Established Program: Collection, Dissemination, Critical assessment (evaluation) and generation of A+M, PSI (PMI) data Members ADAS, M. OMullane ADAS CFADC, ORNL, D. R. Schultz CFADC, ORNL CRAAMD, Jun Yan CRAAMD IAEA, Atomic and Molecular Data Unit, Braams, B. J. IAEA, Atomic and Molecular Data Unit JAEA, T. Nakano JAEA KAERI, Y. Rhee KAERI Kurchatov Institute, Yu. V. Martynenko Kurchatov Institute NIFS, I. Murakami NIFS NIST, W. L. Wiese (Yu. Ralchenko) NIST FZJ, D. Reiter FZJ NFRI, J.-S. Yoon NFRI
IAEA Code Centre Network activities 1. CCC & RCCC, Curtin University, Australia, I. Bray 2. CR Model, Kitasato University, Japan, F. Koike 3. MELDF*-TCAM, QUAN, EIKON, CTMC, Universidad Autonoma de Madrid, Spain, I. Rabadan 4. CDW and VPN, University P. & M. Curie, France, Alain Dubois; Centro Atomico Bariloche CNEA, Argentina, P.D. Fainstein 5. Molecular cross Sections, SI calculations, University of Bari, Italy, M. Capitelli 6. CR Models, Kurchatov Institute, Russian Federation, A. Kukushkin 7. ATOM, ATOM-AKM, GKU, Lebedev Institute, Russian Federation, L. Vainshtein 8. HYDKIN, Forschungszentrum Juelich, Germany, D. Reiter 9. MCHF, GRASP2K, FLYCHK, NOMAD, National Institute for Standards and Technology, USA, Yuri Ralchenko 10. DEGAS databases, Princeton Plasma Physics Laboratory, USA, D. Stotler 11. LANL Codes, Los Alamos National Laboratory, USA, J. Abdallah, Jr. 12. HULLAC code, ETHZ, Switzerland, M. Klapisch 13. SDTRIM-SP, IPP Greifswald, Germany, R. Schneider 14. AMD Services, International Atomic Energy Agency, H.-K. Chung
IAEA CCN Meeting in participants (with data users D. Coster and D. Elder) Valuable exchange of information on data production and applications Flexible group of participants Utilize CCN as a network for the coordination and collaboration on code activities Larger network with diverse background desirable codes, models, experiments Concerns over the uncertainties of on-line code calculations More harm to have online codes without the expert help Better to host expert-generated data An integrated database of recommended data and code capabilities A database based on the decision tree concept proposed The quality and availability of data sets should be provided for a data inquiry CCN activities should be formulated to benefit code developers directly Code comparison workshops (eg. NLTE7)
IAEA Coordinated Research Projects : Characterization of Size, Composition and Origins of Dust in Fusion Devices : Light Element Atom, Molecule and Radical Behaviour in the Divertor and Edge Plasma Regions : Spectroscopic and Collisional Data for Tungsten from 1 eV to 20 keV : Atomic and Molecular Data for State-Resolved Modelling of Hydrogen and Helium and Their Isotopes in Fusion Plasma : Data for Erosion and Tritium Retention in Beryllium Plasma-Facing Materials (tentative): Plasma-material Interaction for Irradiated Tungsten and Tungsten Alloys (tentative): Plasma Interaction with Low-activation Stainless Steel Surfaces
IAEA : Data for Erosion and Tritium Retention in Beryllium Plasma-Facing Materials Processes include physical and chemical sputtering and trapping and transport of hydrogen (H,D,T) for beryllium-based surfaces. The CRP will emphasize data for the relevant mixed materials, especially Be-(H,D,T,He), Be-C, Be-N, Be-O. The most important projectiles are H, D, T, He, Be, C, N, O, Ne and Ar. The first RCM was held Sep Comments (BJB): Experimental database is basically PISCES. Theoretical database is basically Ecksteins BCA (TRIM) data. This is all a bit limited relative to the importance of the subject. Beryllium should be the ideal material for large scale computational work.
IAEA (planned): Plasma-material Interaction for Irradiated Tungsten and Tungsten Alloys This CRP is in the Programme and Budget to start in Overall objective: To enhance the knowledge base on interaction of H and He in plasma with tungsten-based plasma-facing materials in the nuclear environment of a fusion reactor. Tritium retention and tritium removal may be strongly influenced by radiation damage and alloy formation. The CRP must include study of the effects of irradiation on surface microstructure.
IAEA Possible follow-up to Light Elements CRP CRPs are fully booked until 2015, with focus on PMI. Assembly, evaluation and recommendation of data for beryllium in plasma. Processes of Be, BeH and BeH 2 and their ions in edge plasma. Fusion conditions, data and data evaluation for the needs of fusion plasma modelling and diagnostics. Not a CRP; can have a Consultant Meeting (CM) or small Technical Meeting (TM). Data for neutral beams in plasma This may be a good topic for a somewhat larger TM. Neutral beams are mainly H, He, Li; possibly Na. Computational and diagnostics aspects
IAEA Roadmap to the internationally agreed standard data library for AM/PSI data for fusion applications Phase 1: Establishment of infrastructure for evaluated data library IAEA A+M Unit: Development of databases to host the standard data library Data Centers: Compilation of relevant data for evaluation Data Centers and Evaluators: Establishment of data evaluators network Data Evaluators: Guidelines of evaluation methods Data Producers: Guidelines of uncertainty estimates. Data Users: Priority list of critical data needs Phase 2: Establishment of evaluated data library IAEA: Establishment / maintenance of databases to host the evaluated data library Data Centers: Coordination of data evaluators network activities Data Evaluators: Evaluation of data sets Data Producers: Guidelines of scaling laws / fit expressions Data Users: Development of data format compatible to applications Phase 3: Establishment and maintenance of standard data library IAEA: Establishment / maintenance of databases to host the standard data library Data Evaluators and Data Centers: Coordination of Technical Committees Data Producers: Feedback on data sets (production of missing data, data improvement) Data Users: Feedback on data sets