IAEA activities in support of accelerator-based research and applications

IAEA activities in support of accelerator-based research and applications S. Charisopoulos, A. Simon, N. Skukan, I. Swainson, and D. Ridikas Physics Section, NAPC/NA, IAEA, Vienna

The Department of Nuclear Science and Applications (NA) NA Department Human Health Physical & Chemical Sciences (NAPC) IAEA Environmental Laboratories NAPC Division Radioisotopes and Radiation Technology Section Physics Section Nuclear Data Section Isotope Hydrology Section Physics Section Research Reactors Fusion Nuclear Instrumentation Accelerators NSIL Lab Seibersdorf Staff: 21 positions, 11@HQ & 10@Seibersdorf, plus consultants, interns, fellows; TOTAL: ~30-35 Budget: ~4M Euros RB under 4 sub-programmes

Accelerators : Mission and Scope Implementation tools Promotion of nuclear applications for peaceful purposes and related capacity building is among the missions of the IAEA. Accelerator applications and nuclear instrumentation is one of the thematic areas, where the IAEA supports its Member States in strengthening their capabilities to adopt and benefit from the use of accelerators. In this context, a number of activities are being implemented by the Physics Section focusing on accelerator applications in multiple disciplines. Among these, activities facilitating access to accelerator facilities for countries without such capabilities are of key importance and of primary interest. Consultancy Meetings Collaborative Research Projects Technical Meetings Training Courses ICTP Schools / Workshops Cooperation Scientific events Technical Cooperation (TC) Projects Accelerator Knowledge Portal

TC projects: >60 active Promotion of nuclear applications for peaceful in ~50 purposes Memberand States related capacity building is among the missions of the IAEA. Meetings/Workshops/Schools: >40/year Accelerator applications and nuclear instrumentation Coordinatedis Research one of Projects: the thematic areas, 15 active/new where the IAEA supports its Member States in strengthening their capabilities Data bases/portals: to adopt and benefit from the use of accelerators. Accelerators, RRs, Fusion In this context, a number of activities are being Major implemented Conferences: by the Physics Section focusing Accelerators, on accelerator RRs, Fusion applications in multiple disciplines. Collaborating Centers: Among ANSTO these, and activities TU Delft facilitating access to accelerator facilities for countries without Cooperation such capabilities agreements: are of key importance and of primary interest. ITER, ELETTRA, RBI Consultancy Meetings Collaborative Research Projects Technical Meetings Training Courses ICTP Schools / Workshops Cooperation Scientific events Technical Cooperation (TC) Projects Accelerator Knowledge Portal

Accelerator Laboratories established through TC projects

Synchrotron-Light for Experimental Science and Applications in the Middle East (Inaugurated in May 16, 2017 in Jordan) Over the last decade IAEA has provided extensive support to train staff at SESAME to safely commission and run the facility. This has included the training of 66 technical and scientific fellows in beamline technologies, and over 30 expert missions to SESAME to help build capacity in the installation and testing of equipment. IAEA also facilitated the networking of SESAME staff with experts from other synchrotron facilities in Europe, the United States and Japan.

BGD0010 TC Project Objective: To enhance the utilization of BAEC Tandem Accelerator Facility for research, development, and industrial services in various developmental areas, such as food and agriculture, health, industry and environment. Bangladesh The accelerator facility has been successfully installed, commissioned and is being used on various samples, but due to financial and other difficulties it has not been possible to train the scientific and technical manpower up to the necessary standard. Most of the manpower at the new tandem accelerator facility are freshly recruited or have been relocated from other facilities and are thus inexperienced. Our technical staff need training on vacuum techniques and the maintenance of vacuum equipment, maintenance of different complex parts of accelerator system and ion sources. It is also very important to train the technical staff for this new tandem accelerator system, its repair and maintenance and for its safe and reliable operation. Our scientific members need training on various ion beam analysis (IBA) techniques and their utilization in the diverse field of science such as agriculture, environmental, industrial, biological, mutation breeding, etc., to enables them to carry out new and innovative research activities more effectively. The senior scientific members need more exposure and visits to the advanced laboratories in the world to gain knowledge.

CRP F11021, Ms Aliz Simon Title: Enhancing Nuclear Analytical Techniques to Meet the Needs of Forensic Science Brazil, Croatia, Finland, France, Hungary, India, Israel, Italy, Jamaica, Portugal, Singapore, Slovenia, Switzerland, Viet Nam Use of ion and neutron beam techniques has also been proven to be extremely powerful in provenancing samples relevant to forensics (other than conventional nuclear forensics dealing mainly with nuclear materials). In this context, possible areas of forensics applications include, but are not limited to, crime investigation, food safety and health-related issues, cultural heritage artefacts and environmental samples. Furthermore, promotion of the capabilities and establishing closer links among the end users, service providers and other stakeholders in this particular area still needs to be enhanced and better organized. CRP F12026, Mr Ian P. Swainson Title: Advanced Moderators for Intense Cold Neutron Beams in Materials Research Argentina, Australia, Denmark, France, Hungary, India, Japan, Malaysia, Russian Federation, Sweden, United States of America To date, the major drawback in the application of cold neutrons is the very low efficiency in their production via different types of moderators. The need for higher cold neutron fluxes has led to various improvements in moderator shapes and designs. Still, however, a breakthrough in enhancing cold neutron fluxes is still pending and the solution to the problem requires new ideas regarding brand new moderator materials. A key element in the program is identifying and characterizing the scattering properties of candidate materials, and assessing the influence of processing parameters on those properties.

New CRP to be launched in July 2018 Facilitating Experiments with Ion Beam Accelerators Goal: 20 Projects/a Budget: 500 k /5 yrs Materials Science: thin films analysis, materials modification, implantation Environmental monitoring: airborne particulate matter, water Biology: Elemental distribution/ speciation on plant organ, complex molecules mass spectrometry fats, sugars etc (MeV SIMS), radiation effects on cells, plant irradiation? Cultural Heritage elemental analysis of paints, archaeological samples Semiconductor/solar cell testing efficiency and radiation hardness Chemical effects WDS PIXE PIXE/PIGE μ-pixe RBS, Channelling NRA (ToF)-ERDA, MeV SIMS,. AMS

Scientific Events in Cooperation with the IAEA

Scientific Events in Cooperation with the IAEA

Planned meetings July 9-11, 2018: Consultancy Meeting on: Applications of Unstable ion-beams and complementary techniques October 8-12, 2018: Technical Meeting on: Advanced Methodologies for the Analysis of Materials for Fusion Energy Production Using Ion Beam Accelerators November 12-16, 2018: Technical Meeting on: Novel Multidisciplinary Applications with Unstable Ion Beams and Complementary Techniques Training Workshops Ion Beam Analysis Techniques, with hands-on-training at RBI, Zagreb Joint ICTP-IAEA Advanced School on Ion Beam Driven Materials Engineering: Accelerators for a New Technology Era at ICTP, Trieste, Italy

https://nucleus.iaea.org/sites/accelerators/pages/default.aspx

IAEA Collaborating Centres To promote the practical use of nuclear techniques worldwide and help the IAEA implement its own programmatic activities, the Agency collaborates with designated Member State institutions. Focusing on research, development and training, this Collaborating Centre scheme helps reach important targets of the United Nations Sustainable Development Goals. Designation process

In conclusion IAEA assist scientists from Member States to: - Recommend new fields of research with increased potential for applications (Consultancy Meetings) - Exchange new ideas focusing on promising applications of societal impact and innovative solutions to problems of modern society (Technical Workshops) - Establish networks working in collaboration (Collaborative Research Projects) - Receive training on advanced technologies and nuclear-oriented research (Training Workshops and dedicated Schools) - Organize scientific events (Conferences, Workshops, Schools) in cooperation with IAEA - Build capacity through national, regional, interregional TC projects (Expert Missions, Training of personnel at hosting institutions abroad, organize training labs for young scientists/students) - Promote the unique expertise of their Research Infrastructures at a global scale (Collaborating Centres)

Thank you!