In the realm of nuclear fusion research, understanding plasma collisional processes is crucial for advancing reactor designs and improving simulation accuracy.
The scientific community requires reliable, peer-reviewed data on cross sections and rate coefficients for collisions between electrons, photons, and heavy particles (atoms, ions, and molecules) in the extreme conditions of a fusion reactor. Until now, accessing and integrating this data into models and simulations has been a challenging and time-consuming process, highlighting the need for a centralized, comprehensive database.
How the Database was Developed
To address this need, the
The
A recently published paper CollisionDB: A New Database of Atomic and Molecular Collisional Processes with an Interactive API was selected for the front page of the latest edition of the journal Atoms. By focusing on fundamental collisional and radiative processes, atomic and molecular structure, and particle-solid interaction processes, CollisionDB has become an invaluable resource for researchers worldwide.
Beneficiaries of the Database
CollisionDB is designed for IAEA Member States and ITER, the world's largest fusion experiment, providing them with a powerful tool to support their fusion research efforts. The database facilitates access to crucial data needed for modeling and simulation, aiding in the development and optimization of fusion reactors. Additionally, the AMD Unit continues to compile and evaluate atomic and molecular data, ensuring that the database remains up-to-date and relevant for the future of fusion research.
Supporting Fusion Research and International Collaboration
The
pwiDB, which contains data on plasma-wall interactions within fusion reactors.
AMBDAS: a comprehensive bibliographic database of published literature on atomic and molecular processes relevant to fusion energy research.
The
Contact:
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Fax: +43 (1) 2600-7
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