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I have been honoured to chair the program committee (PC) of the 41st European Physical Society (EPS) Conference on Plasma Physics and to act as a guest editor for this special issue of Plasma Physics and Controlled Fusion featuring peer-reviewed papers by the plenary and invited speakers of the conference.
The 41st EPS Plasma Physics conference, hosted by the Max Planck Institute for Plasma Physics, took place in the Berlin Congress Center, located at the famous Alexanderplatz in the centre of Berlin. The dedicated work of the local organizing committee, chaired by Professor Thomas Klinger, resulted in five flawless conference days. The event attracted 649 delegates from 40 countries. Over the last months of program preparation, I interacted closely with the conference secretary, Beate Kemnitz, and Matthias Hirsch who was responsible for the website, to whom I would like to express my gratitude for our efficient collaboration.
The PC paid close attention to the nominations made via the online open forum, which provided a valuable input of 350 suggestions from the plasma physics community. The PC also received and accommodated recommendations from the American and Japanese Physical Societies.
Following the EPS plasma physics division board request, a particular goal of the EPS 2014 program was to increase the participation in the typically under-represented low-temperature and dusty plasmas (LTDP) and basic and astrophysical plasmas (BAP) sessions. This was facilitated by joined sessions, which nurtured productive interactions between these plasma communities. Judging from the high attendance numbers, both the joined and special 'kinetics' sessions have received much interest from the participants. The PC has also recognized that a significant part of the delegates belong to the magnetic confinement fusion (MCF) community and that this has to be reflected in the number of talks allocated to the MCF session. To that end, the schedule has been arranged to accommodate parallel MCF talks. Composing a program echoing the interdisciplinary character of the conference was undoubtedly made possible thanks to the enthusiasm of the four sub-chairs, Paola Mantica (MCF), Alessandra Benuzzi-Mounaix (beam-plasma and inertial fusion; BPIF), Robert Bingham (BAP) and Giorgio Dilecce (LTDP), to collaborate and to search for a compromise in pursuing the common goal.
The submission and on-line proceedings system has been operated as smoothly as ever under the command of Boudewijn van Milligen, whose persistent 'behind-the-scenes' labor and attention have been vital to the work of the PC.
It is my sincere hope that the readers will find the present volume, which gathers contributions reflecting various aspects of contemporary plasma physics, stimulating and worth their attention.
Outstanding scientists honored at the 41st European physical society conference on plasma physics
The 2014 Hannes Alfvén Prize was awarded by the Board of the Plasma Physics Division of the EPS to Patrick Mora (Centre de Physique Théorique, Ecole Polytechnique, France) 'for decisive results in the field of laser-produced plasma physics, in particular for illuminating descriptions of laser light absorption in plasmas, electron heat transport in steep temperature gradients and plasma expansion dynamics into vacuum'.
The first remarkable result of Patrick Mora is a theoretical model, now included in all the major textbooks, which couples laser light absorption and energy transport to plasma hydrodynamics. With his colleague Jean-François Luciani, he then proposed a nonlinear and nonlocal theory of electron heat transport which enables interpretation of experimental results showing a strong departure from the classical Spitzer and Härm formalism, thus inspiring a variety of models now currently used for hydrodynamic computations of laser or x-ray created plasmas, especially in the context of inertial confinement fusion. Later, he drew, with Tom Antonsen, USA, a model for the propagation of a short laser pulse in under-dense plasmas, exhibiting its self-focusing character and its tendency to develop Raman-like instabilities. The numerical code he elaborated, named WAKE, is proved to be more efficient than usual Particle-in-Cell codes in numerous experimental situations and is now widely used. In particular it enabled the first simulation of complete cavitation of electron density in what was later named the 'bubble regime', and is shown to play a crucial role in relativistic quasi-monoenergetic electron beam acceleration. Finally his recent work on plasma expansion into vacuum is possibly his most important work as it gives a complete understanding of the flow dynamics, elucidating for instance the structure of the ion front and predicting the maximum ion velocity. This model was used to sustain a lot of recent experimental results on ion acceleration obtained in European laboratories.
The 2014 EPS Plasma Physics Innovation Prize was awarded to Christoph Hollenstein (Centre de Recherche en Physique des Plasmas, EPFL, Switzerland) 'for instrumental contributions to the field of Plasma Processes in Industry and for his strong impact in spin-off activities of fusion R&D'.
Among the various topics tackled by Christoph Hollenstein, one can first mention the development of a plasma process for thin film deposition using the plasma torch and, more significantly, all the work done on radio-frequency (RF) plasma reactors for large area deposition of amorphous or microcrystalline silicon for solar cell or flat display applications. As an additional outcome, he also contributed to the fundamental understanding of powder formation in reactive plasmas used for deposition of many important industrial coatings. Moreover, he studied the plasma chemistry of silicon-oxide deposition as barrier coating for packaging applications. More recently, a method was investigated to modify the functional and decorative properties—for instance the color—of a substrate under reactive plasma conditions, with potential applications in the watch industry. Electrical discharge machining was investigated as well, with a systematic study on the eroding spark physics performed thanks to a set of plasma diagnostics, including spectroscopic and imaging tools, which demonstrated that the spark is a cold and dense, weakly non-ideal, plasma, thus improving the understanding of the fundamental mechanisms underlying the industrial process. Christoph Hollenstein and his colleagues have also uncovered the physics behind the formation of plasmoids in RF plasma reactors, which exhibit a funnel-like behavior, and they proposed strategies to prevent damage induced by them. An additional experimental approach is currently used to explore arcing in spacecraft and spacecraft equipment, with special attention paid to arc ignition, propagation. Such studies lead to the development of safer electrical equipment. All these great developments and inventions were, and are, made in close collaboration with European industrial partners.
The 2014 EPS Plasma Physics Division PhD Research Award has been judged by an external committee, comprising Francesco Pegoraro (IT), Miklos Porkolab (US), Karl-Heinz Spatschek (DE) and Elisabeth Rachlew (SE), who examined all the candidatures in a process managed by Elisabeth Wolfrum representing the EPS Plasma Physics Division. Based on their conclusions, this year's award goes to Edmund Highcock (Oxford University, UK) for his thesis entitled 'The zero turbulence manifold of fusion plasmas'.
Figure 1. From left to right: E Highcock, C Hollenstein and P Mora.
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EPS/PPCF/IUPAP Student Poster Prizes were also attributed during the conference to:
- Livia Casali (IPP Garching, Germany) for her poster 'Transport analysis of high radiation and high density plasmas at ASDEX Upgrade',
- Brendan Kettle (QUB, UK) for his poster 'XUV absorption of Warm Dense Aluminum',
- Himank Anand (EPFL, Switzerland) for his poster 'First experimental results of plasma shape control using real time equilibrium reconstruction in TCV', and
- Alexandra Vallet (CELIA, France) for her poster 'Semi-analytic modeling of shock ignition'.
In addition, the 10th Itoh Project Prize in Plasma Turbulence was awarded by a selection committee, composed of S-I Itoh (Japan–chair), A Fasoli (Switzerland), I Furno (Switzerland), K Ida (Japan), K Itoh (Japan), V Naulin (Denmark) and U Stroth (Germany), to Zhouji Huang (EPFL, Switzerland) for his work 'Investigation of plasma turbulence and geodesic acoustic modes using tangential phase-contrast imaging in the TCV tokamak'. Two students also received high commendations from the judges: B Schmid (U. Stuttgart, Germany) for 'Zonal flow formation in the stellarator TJ-K' and M Madi (CEA/IRFM, France & American University of Beirut, Lebanon) for 'Effect of density fluctuations in the scrape-off layer on the lower hybrid power spectrum'.