GEC Plasma Data Exchange Project

In 2010 the Gaseous Electronics Conference (GEC), a major international conference for the low temperature plasma science (LTPS) community, initiated the Plasma Data Exchange Project (PDEP). The PDEP is an informal, community-based project that aims to address, at least in part, the well-recognized needs for the community to organize the means of collecting, evaluating and sharing data both for modelling and for interpretation of experiments. The emphasis to date in the PDEP has been on data related to the electron and ion components of these plasmas rather than on the plasma chemistry.

At the heart of the PDEP is the open-access website, LXCat [1], developed by researchers at LAPLACE (Laboratoire Plasma et Conversion d'Energie, Toulouse, France). LXCat is a platform for archiving and manipulating collections of data related to electron scattering and transport in cold, neutral gases, organized in databases set-up by individual members or institutions of the LTPS community.

At present, 15 databases of electron scattering data, contributed by groups around the world, can be accessed on LXCat. These databases include complete sets of electron cross sections, over an energy range from thermal to nominally 1 keV, for almost 40 ground-state neutral species and partial sets of data for about 30 other neutral, excited and ionized species. 'Complete' implies that all the major electron momentum and energy loss processes are well described in the dataset. Such 'complete' datasets can be used as input to a Boltzmann calculation of the electron energy distribution function (generally non-Maxwellian), and electron transport and rate coefficients can be obtained in pure gases or mixtures by averaging over the distribution function. Online tools enable importing and exporting data, plotting and comparing different sets of data. An online version of the Boltzmann equation solver BOLSIG+ [2] is also available on the LXCat site.

Other members of the community have contributed their collections of transport and rate coefficient data, and comparisons of calculated and measured data can also be made online through the LXCat site. A large body of data for ion scattering and transport is available on the sister site, ICECat [3], which is now being merged into a new and improved LXCat platform [4] under development.

The GEC hosted workshops on the PDEP in 2011 and 2012, with the third in the series being planned for October 2013. The purpose of these workshops has been to report progress towards the evaluation of data available on LXCat or elsewhere. The focus of the 2011 workshop was electron scattering and transport in noble gases, and the articles in this cluster issue were originally reported at that occasion. The 2012 workshop focused on electron transport in simple molecular gases, and plans are to publish documentation and evaluations of datasets for H₂, N₂ and O₂, as reported at the 2012 GEC. The focus topic for the 2013 workshop is electron scattering in H₂O and other complex molecules.

The first three papers (paper I on Ar, by Pitchford et al [5], paper II on He and Ne, by Alves et al [6], and paper III on Kr and Xe, by Bordage et al [7]) in this cluster issue aim to provide documentation of the datasets available on LXCat for noble gases. Paper IV by Klaus Bartschat [8] gives an overview of theoretical methods for calculations of electron–atom scattering cross sections. This is important because, in some cases, theory has now advanced to the point of being able to provide complete sets of electron scattering cross-sections in noble gases to the accuracy required for use in plasma modelling. The discussion provided in the four papers in this cluster issue is intended to help users decide which datasets best fit their needs.

We urge the users of these data to include complete and proper references in all publications. Open-access data should not become anonymous data!

Finally, it is with sadness that we acknowledge the passing of our colleague Art Phelps in December 2012. Art was a key person on the GEC Plasma Data Exchange Project and a major contributor to the LXCat site, having made available his compilations of electron and ion scattering cross sections as well as many of his unpublished notes and documents on related issues. Throughout his long and remarkably productive career, Art Phelps held the bar high for the entire GEC community. We can only aspire to his example. We dedicate this cluster issue to him with the knowledge that he could have improved on these papers but with the hope that he would have been satisfied with their final versions.