An Introduction to Version 3 of the LXCat Plasma Input Data Platform
ORAL · Invited
Abstract
The LXCat project [1,2,3] provides electron-impact cross sections, swarm parameters, interaction potentials and other data that are required for low-temperature plasma (LTP) modeling and simulation. It is a community-driven project that contains approximately 30 000 cross sections, and welcomes in the order of 40 000 visitors per year. Version 2 of the website can be found at https://lxcat.net/home/. In spite of its success, a number of issues have been identified in recent years that stand in the way of further progress [3, sec. 6, 7]. These concern the data format, the choice for the (SQL) database and the design of the software stack.
In this contribution, the authors present “LXCat 3”, which is scheduled to be made available to the general public in September 2024 and addresses these concerns. It is based on a standard (JSON) file format that is underpinned by a well-defined data model that is encoded in JSON-Schema, it uses the multi-model ArangoDB database and features a design that allows interaction with the data other than through the LXCat website. LXCat3 is free software, available from the GitHub repository https://github.com/LXCat-project/LXCat. Special attention has been paid to a proper versioning of data, and references to particular data can now be made unambiguously using so-called “permalinks”. This feature will have a great impact on the reproducibility of studies in LTP science, especially when mixtures of molecular gases are involved and the input data needs are excessive.
After an introduction to the LXCat project and a discussion of the features of LXCat3, live demonstrations of the new platform will be given. The presentation will conclude with a discussion of recent developments, in particular the application of the framework to full plasma chemistries, including non-electronic processes.
[1] Pancheshnyi, S. et al: 2012, Chemical Physics 398, 148, https://doi.org/10.1016/j.chemphys.2011.04.020
[2] Pitchford L.C. et al. : 2017, Plasma Processes and Polymers 14, 1600098, https://doi.org/10.1002/ppap.201600098
[3] Carbone E.A.D. et al.: 2021, Atoms 9, 16, https://doi.org/10.3390/atoms9010016
In this contribution, the authors present “LXCat 3”, which is scheduled to be made available to the general public in September 2024 and addresses these concerns. It is based on a standard (JSON) file format that is underpinned by a well-defined data model that is encoded in JSON-Schema, it uses the multi-model ArangoDB database and features a design that allows interaction with the data other than through the LXCat website. LXCat3 is free software, available from the GitHub repository https://github.com/LXCat-project/LXCat. Special attention has been paid to a proper versioning of data, and references to particular data can now be made unambiguously using so-called “permalinks”. This feature will have a great impact on the reproducibility of studies in LTP science, especially when mixtures of molecular gases are involved and the input data needs are excessive.
After an introduction to the LXCat project and a discussion of the features of LXCat3, live demonstrations of the new platform will be given. The presentation will conclude with a discussion of recent developments, in particular the application of the framework to full plasma chemistries, including non-electronic processes.
[1] Pancheshnyi, S. et al: 2012, Chemical Physics 398, 148, https://doi.org/10.1016/j.chemphys.2011.04.020
[2] Pitchford L.C. et al. : 2017, Plasma Processes and Polymers 14, 1600098, https://doi.org/10.1002/ppap.201600098
[3] Carbone E.A.D. et al.: 2021, Atoms 9, 16, https://doi.org/10.3390/atoms9010016
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Presenters
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Jan Van Dijk
Eindhoven University of Technology
Authors
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Jan Van Dijk
Eindhoven University of Technology
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Daan J Boer
Eindhoven University of Technology