ER15-ENEA-03
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Project Participants: | Project Participants: | ||
- | [mailto:alessandro.biancalani@ipp.mpg.de Alessandro Biancalani], [mailto:bottino@ipp.mpg.de Alberto Bottino], [mailto:matthias.borchardt@ipp.mpg.de Matthias Borchardt], [mailto:sergio.briguglio@enea.it Sergio Briguglio], [mailto:nakia.carlevaro@gmail.com Nakia Carlevaro], [mailto:claudio.ditroia@enea.it Claudio Di Troia], [mailto:remi.dumont@cea.fr Remi Dumont], [mailto:matteo.faganello@univ-amu.fr Matteo Faganello], [mailto:giuliana.fogaccia@enea.it Giuliana Fogaccia], [mailto:valeria.fusco@enea.it Valeria Fusco], [mailto:xavier.garbet@cea.fr Xavier Garbet], [mailto:ralf.kleiber@ipp.mpg.de Ralf Kleiber], [mailto:axel.koenies@ipp.mpg.de Axel | + | [mailto:alessandro.biancalani@ipp.mpg.de Alessandro Biancalani], [mailto:bottino@ipp.mpg.de Alberto Bottino], [mailto:matthias.borchardt@ipp.mpg.de Matthias Borchardt], [mailto:sergio.briguglio@enea.it Sergio Briguglio], [mailto:nakia.carlevaro@gmail.com Nakia Carlevaro], [mailto:claudio.ditroia@enea.it Claudio Di Troia], [mailto:remi.dumont@cea.fr Remi Dumont], [mailto:matteo.faganello@univ-amu.fr Matteo Faganello], [mailto:giuliana.fogaccia@enea.it Giuliana Fogaccia], [mailto:valeria.fusco@enea.it Valeria Fusco], [mailto:xavier.garbet@cea.fr Xavier Garbet] (till Jan.1st 2017), [mailto:ralf.kleiber@ipp.mpg.de Ralf Kleiber], [mailto:axel.koenies@ipp.mpg.de Axel Könies], [mailto:philipp.lauber@ipp.mpg.de Philipp Lauber], [mailto:luzhixin@ipp.mpg.de Zhixin Lu], [mailto:alexander.milovanov@enea.it Alexander Milovanov], [mailto:alexey.mishchenko@ipp.mpg.de Oleksiy Mishchenko], [mailto:giovanni.montani@enea.it Giovanni Montani], [mailto:gregorio.vlad@enea.it Gregorio Vlad], [mailto:xin.wang@ipp.mpg.de Xin Wang], [mailto:david.zarzoso-fernandez@univ-amu.fr David Zarzoso] |
External Collaborators (not supported by NLED funding): | External Collaborators (not supported by NLED funding): | ||
- | [mailto:chavdarovski@gmail.com Ilija Chavdarovski] (MPPC PostDoc Fellow), [mailto:mcole@ipp.mpg.de Michael Cole] (PhD Student), [mailto:falematte@gmail.com Matteo Falessi] (PhD Student), [mailto:thay@ipp.mpg.de Thomas Hayward] (PhD Student), [mailto:malik.idouakass@univ-amu.fr Malik Idouakass] (PhD Student), [mailto:pierluigimigliano@gmail.com Pierluigi Migliano] (PostDoc Fellow), [mailto:francesco.palermo@ipp.mpg.de Francesco Palermo] (PostDoc Fellow), [mailto:mirjam.schneller@ipp.mpg.de Mirjam Schneller] (EUROfusion Fellow till Feb.1st 2016), [mailto:christoph.slaby@ipp.mpg.de Christoph Slaby] (PhD Student), [mailto: | + | [mailto:chavdarovski@gmail.com Ilija Chavdarovski] (MPPC PostDoc Fellow), [mailto:mcole@ipp.mpg.de Michael Cole] (PhD Student), [mailto:falematte@gmail.com Matteo Falessi] (PhD Student till Feb.1st 2017), [mailto:thay@ipp.mpg.de Thomas Hayward] (PhD Student), [mailto:malik.idouakass@univ-amu.fr Malik Idouakass] (PhD Student till Feb.1st 2017), [mailto:pierluigimigliano@gmail.com Pierluigi Migliano] (PostDoc Fellow), [mailto:ivan.novikau@ipp.mpg.de Ivan Novikau] (PhD Student), [mailto:francesco.palermo@ipp.mpg.de Francesco Palermo] (PostDoc Fellow), [mailto:mirjam.schneller@ipp.mpg.de Mirjam Schneller] (EUROfusion Fellow till Feb.1st 2016), [mailto:christoph.slaby@ipp.mpg.de Christoph Slaby] (PhD Student), [mailto:xavier.garbet@cea.fr Xavier Garbet] (CEA Faculty) |
Participating Research Institutions: | Participating Research Institutions: | ||
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[http://edu.univ-amu.fr Aix Marseille Univerity], [http://www-cadarache.cea.fr/gb/activites/fusion/index.php CEA Cadarache], [http://www.enea.it/it/centro-ricerche-frascati ENEA Frascati], [https://www.ipp.mpg.de/17301/garching IPP Garching], [https://www.ipp.mpg.de/12424/greifswald IPP Greifswald] | [http://edu.univ-amu.fr Aix Marseille Univerity], [http://www-cadarache.cea.fr/gb/activites/fusion/index.php CEA Cadarache], [http://www.enea.it/it/centro-ricerche-frascati ENEA Frascati], [https://www.ipp.mpg.de/17301/garching IPP Garching], [https://www.ipp.mpg.de/12424/greifswald IPP Greifswald] | ||
- | <h1> | + | <h1>Objectives of the NLED project 2015-17</h1> |
<p> | <p> | ||
The main aim of this project proposal is to assess the essential physics elements for successful numerical simulation of Alfvénic fluctuations and energetic particle behaviors in fusion plasmas. A variety of numerical codes adopting both gyrokinetic as well as hybrid fluid-kinetic approaches will be employed to accomplish this task. Reference plasma scenarios, including these fundamental processes, will be extracted from experimental observations for carrying out numerical studies in conditions of practical interest. Meanwhile, the use of physical models of increasing complexity within numerical simulation codes will allow to clearly identify the importance of accounting for realistic plasma nonuniformity and magnetic field geometry for successful comparisons of numerical simulation results with experimental observations. Furthermore, benchmarking of codes developed for analyzing these physics in tokamak and stellarator devices will provide deeper insights. | The main aim of this project proposal is to assess the essential physics elements for successful numerical simulation of Alfvénic fluctuations and energetic particle behaviors in fusion plasmas. A variety of numerical codes adopting both gyrokinetic as well as hybrid fluid-kinetic approaches will be employed to accomplish this task. Reference plasma scenarios, including these fundamental processes, will be extracted from experimental observations for carrying out numerical studies in conditions of practical interest. Meanwhile, the use of physical models of increasing complexity within numerical simulation codes will allow to clearly identify the importance of accounting for realistic plasma nonuniformity and magnetic field geometry for successful comparisons of numerical simulation results with experimental observations. Furthermore, benchmarking of codes developed for analyzing these physics in tokamak and stellarator devices will provide deeper insights. | ||
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</p> | </p> | ||
- | <h1> | + | <h1>Activity Reports</h1> |
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<ul> | <ul> | ||
<li>[[#ARPY_1|[1]]] | <li>[[#ARPY_1|[1]]] | ||
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<em> 2015 NLED Activity Report.</em> [http://www.afs.enea.it/zonca/NLED_temp/NLED_2015.pdf PDF] | <em> 2015 NLED Activity Report.</em> [http://www.afs.enea.it/zonca/NLED_temp/NLED_2015.pdf PDF] | ||
</li> | </li> | ||
- | + | <li>[[#ARPY_3|[3]]] | |
- | + | <em> 2016 NLED Mid-Term Report.</em> [http://www.afs.enea.it/zonca/NLED_temp/NLED_midterm.pdf PDF] | |
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- | <li>[[# | + | |
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</li> | </li> | ||
- | + | <li>[[#ARPY_4|[4]]] | |
- | + | <em> 2016 NLED Activity Report.</em> [http://www.afs.enea.it/zonca/NLED_temp/NLED_2016.pdf PDF] | |
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- | <li>[[# | + | <li>[[#ARPY_5|[5]]] |
- | + | <em> 2017 NLED Final Report.</em> [http://www.afs.enea.it/zonca/NLED_temp/NLED_2017.pdf PDF] | |
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- | + | <h1>Publications/presentations in 2017</h1> | |
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<ul> | <ul> | ||
- | <li>[[# | + | <li>[[#2017_1|[1]]] |
- | + | S. Briguglio, M. Schneller, X. Wang, C. Di Troia, T. Hayward-Schneider, V. Fusco, G. Vlad and G. Fogaccia, <em>Saturation of Alfvén modes in tokamak plasmas investigated by Hamiltonian mapping techniques.</em> Nucl. Fusion <b>57</b>, 072001 (2017) (21pp). [https://doi.org/10.1088/1741-4326/aa515b PDF] | |
</li> | </li> | ||
- | <li>[[# | + | <li>[[#2017_2|[2]]] |
- | + | F. Zonca and L. Chen, <em>On the nonlinear dynamics of phase space zonal structures.</em> Invited Talk at the [http://ifts.zju.edu.cn/iftsnew/index.php 11th West Lake International Symposium on Energetic Particle Physics and Microturbulence in Magnetic Fusion], Hangzhou, China, April 24-26, (2017). [http://www.afs.enea.it/zonca/references/seminars/zonca_wlis17.pdf PDF] | |
- | [http:// | + | |
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_3|[3]]] |
- | + | Z. Qiu, L. Chen and F. Zonca, <em>Nonlinear excitation of finite-radial-scale zonal structures by toroidal Alfvén eigenmode.</em> Nucl. Fusion <b>57</b>, 056017 (2017) (10pp). [https://doi.org/10.1088/1741-4326/aa6413 PDF] (30% NLED support) | |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_4|[4]]] |
- | F. Zonca | + | A. Biancalani, A. Bottino, M. Cole, C. Di Troia, Ph. Lauber, A. Mishchenko, B. Scott and F. Zonca, <em>Nonlinear interplay of Alfvén instabilities and energetic particles in tokamaks.</em> Plasma Phys. Control. Fusion <b>59</b>, 054004 (2017) (14pp). [https://doi.org/10.1088/1361-6587/aa61e4 PDF] |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_5|[5]]] |
- | + | F. Zonca, X. Tao and L. Chen, <em>Nonlinear wave-particle dynamics in chorus excitation</em>, ECA vol. 41F (EPS) Paper No. P2.412. Presented at the 44.th EPS Conference on Plasma Physics, Belfast, Northern Ireland, 26 - 30 June (2017). | |
+ | [http://ocs.ciemat.es/EPS2017PAP/pdf/P2.412.pdf PDF] (30% NLED support) | ||
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_6|[6]]] |
- | + | L. Chen and F. Zonca, <em>On energetic-particle excitations of low-frequency Alfvén eigenmodes in toroidal plasma.</em> Physics of Plasmas <b>24</b>, 072511 (2017) (10pp). [http://dx.doi.org/10.1063/1.4993056 PDF] (50% NLED support) | |
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_7|[7]]] |
- | F. Zonca et al. < | + | F. Zonca et al., <em>Physics of Energetic Particles and Alfvén Waves.</em> Tutorial Invited Talk at the [http://www.astro.auth.gr/~eftc17/Homepage.html 17th European Fusion Theory Conference], Athens, October 9-12, (2017). [http://www.afs.enea.it/zonca/references/seminars/zonca_eftc17.pdf PDF] |
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- | [http://www.afs.enea.it/zonca/references/seminars/ | + | |
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_8|[8]]] |
- | F. Zonca. < | + | F. Zonca and L. Chen, <em>The fishbone burst cycle.</em> Invited Talk at the [http://ifts.zju.edu.cn/iftsnew/index.php Trilateral International Workshop on Energetic Particle Physics], Hangzhou, China, November 10-12, (2017). [http://www.afs.enea.it/zonca/references/seminars/zonca_tiwepp17.pdf PDF] |
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- | [http://www.afs.enea.it/zonca/references/seminars/ | + | |
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_9|[9]]] |
- | + | A. Biancalani, I. Chavdarovski, Z. Qiu, A. Bottino, D. Del Sarto, A. Ghizzo, O. Gurcan, P. Morel, I. Novikau, <em>Saturation of energetic-particle-driven geodesic acoustic modes due to wave-particle nonlinearity.</em> Journal of Plasma Physics <b>83</b>, 6 725830602 (2017) (10pp). [https://www.cambridge.org/core/journals/journal-of-plasma-physics/article/saturation-of-energeticparticledriven-geodesic-acoustic-modes-due-to-waveparticle-nonlinearity/D82A3650CD7A7D1B66DC1965E9DC28FB# PDF] (33% NLED support) | |
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_10|[10]]] |
- | + | A. Biancalani, et al., <em>Gyrokinetic investigation of zonal structures in tokamaks.</em> Talk at the 9th Festival de Theorie, Aix-en-Provence, June 29th, 2017. (33% NLED support) | |
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_11|[11]]] |
- | + | A. Biancalani, et al., <em>Nonlinear gyrokinetic investigation of energetic-particle-driven geodesic acoustic modes.</em> Poster at the 17th European Fusion Theory Conference, Athens, Greece, October 9-12, 2017. [http://www.astro.auth.gr/~eftc17/abstract_P2.10_BiancalaniA.pdf PDF] | |
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_12|[12]]] |
- | + | N. Carlevaro, et al., <em>Avalanches in multi-mode simulations of the beam-plasma system: applications to fusion plasmas and its criticalities.</em> To be Submitted to <em>J. Plasma Phys.</em> | |
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_13|[13]]] |
- | N. Carlevaro | + | N. Carlevaro, G. Montani, F. Zonca, <em>Saturation level and resonance overlap in Hamiltonian BoT systems.</em> To be Submitted to <em>Europhys. Lett.</em> |
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_14|[14]]] |
- | + | G. Vlad, V. Fusco, S. Briguglio, C. Di Troia, G. Fogaccia, F. Zonca, and X. Wang, <em>Modeling of electron fishbones.</em> Invited Talk at the [http://ifts.zju.edu.cn/iftsnew/index.php Trilateral International Workshop on Energetic Particle Physics], Hangzhou, China, November 10-12, (2017). [http://www.afs.enea.it/vlad/Presentations/Slides-Trilateral-2017.11.10-12-Hangzhou-GV.pdf PDF] | |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_15|[15]]] |
- | + | G. Vlad, S. Briguglio, G. Fogaccia, V. Fusco, C. Di Troia, E. Giovannozzi, and X. Wang, <em>Single-n versus multiple-n simulations of Alfvénic global modes.</em> Poster presented at the [https://nucleus.iaea.org/sites/fusionportal/Pages/Energetic%20Particles%2017/General-Info.aspx “15th IAEA Technical Meeting on Energetic Particles in Magnetic Confinement Systems”, Princeton 5-8 Sept. 2017]. [http://www.afs.enea.it/vlad/Presentations/Poster-Vlad.G.-4-v0.pdf PDF] | |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_16|[16]]] |
- | + | G. Vlad, S. Briguglio, G. Fogaccia, V. Fusco, C. Di Troia, E. Giovannozzi, X. Wang and F. Zonca, <em>Single-n versus multiple-n simulations of Alfvénic modes.</em> Submitted to <em>Nuclear Fusion (2017)</em> | |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_17|[17]]] |
- | + | C. Di Troia, <em>Non perturbative guiding center transformation: the gyrophase is the Kaluza-Klein 5th dimension.</em>, | |
- | + | Conference in CIRM, Marseille, 30 October- 3 November 2017, Collisionless Boltzmann (Vlasov) Equation and | |
- | ( | + | Modelling of Self-Gravitating Systems and Plasmas. |
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_18|[18]]] |
- | + | C. Di Troia, <em>Non perturbative guiding center and stochastic gyrocenter transformations: gyrophase is the Kaluza-Klein 5th dimension | |
- | <em> | + | also for reconciling General Relativity with Quantum Mechanics.</em>, submitted to Physical Review D, (2017). |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_19|[19]]] |
- | + | T Hayward-Schneider and Ph Lauber, <em>Nonlinear energetic particle transport by Alfvén eigenmodes and sensitivity study of hybrid-gyrokinetic physics models.</em>, Poster at the 15th IAEA TCM on EPs; PPPL, USA (September 2017), in preparation for NF special issue | |
- | + | [https://nucleus.iaea.org/sites/fusionportal/Shared%20Documents/EP%2017th/Posters/P-10.pdf PDF] | |
- | ( | + | |
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_20|[20]]] |
- | + | M Schneller et al, <em>The Effect of EP-induced Geodesic Acoustic Modes on Microturbulence.</em>, Invited talk at MPPC meeting, Greifswald (Sept. 2017) [http://www2.ipp.mpg.de/~mirjam/Schneller_MPPC2017.pdf PDF] | |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_21|[21]]] |
- | + | M Schneller et al, <em>Investigation of EP induced Geosedic Acoustic Modes.</em>, Poster at the 15th IAEA TCM on EPs; PPPL, USA (Sept. 2017) | |
- | + | [http://www2.ipp.mpg.de/~mirjam/Schneller_iaea2017.pdf PDF] | |
- | <em> | + | |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_22|[22]]] |
- | + | Ph Lauber et al, <em>Onset of strongly non-linear energetic particle dynamics at ASDEX Upgrade.</em>, Presentation at MPPC meeting, Greifswald (Sept. 2017) | |
- | + | [http://www2.ipp.mpg.de/~pwl/NAT/NATfiles/2017_9_MPPC_Lauber.pdf PDF] | |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_23|[23]]] |
- | + | Ph Lauber et al, <em>Linear kinetic simulations of modes in the BAE and BAAE frequency regime.</em>, | |
- | + | 18th ITPA EP meeting, Seville, Spain (May 2017) | |
- | ( | + | [https://portal.iter.org/departments/POP/ITPA/EP/EP/Documents/18/Presentations/08-09-Lauber.pdf PDF] |
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_24|[24]]] |
- | + | Ph Lauber et al, <em>Energetic Particle (EP) modeling for JT-60 SA.</em>, 6th Research and Coordination Meeting JT60-SA Planning Meeting, Naka, Japan (May 2017) | |
- | <em> | + | |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_25|[25]]] |
- | + | A Bierwage and Ph Lauber,<em>Gyrokinetic analysis of low-n shear Alfvén and ion sound wave spectra in a high-beta tokamak plasma.</em>, Nuclear Fusion, 57, 11 (2017) (50% NLED support) | |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_26|[26]]] |
- | + | Ph Lauber et al, <em>Validating models for energetic particles in the view of ITER and DEMO.</em>, Invited talk at the EFPW, Dubrovnik (Nov. 2017) | |
- | + | [http://www2.ipp.mpg.de/~pwl/NAT/NATfiles/2017_EFPW_Lauber_v4.pdf PDF] | |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_27|[27]]] |
- | + | Z. X. Lu, X. Wang, Ph. Lauber, F. Zonca, <em>Mode structure symmetry breaking of energetic particle driven Beta-induced Alfvén Eigenmode.</em>, submitted to Phys. Plasmas | |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_28|[28]]] |
- | + | Z. X. Lu, X. Wang, Ph. Lauber, F. Zonca, <em>Kinetic effects of thermal ions and energetic particles on discrete kinetic BAE mode generation and symmetry breaking.</em>, submitted to Nucl. Fusion | |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_29|[29]]] |
- | + | Z. X. Lu, C Angioni, A Bottino, E Fable, W Hornsby, X. Wang, Ph. Lauber and Zonca, <em>Local and global analysis of symmetry breaking for ITG and BAE modes.</em>, 17thEuropean Fusion Theory Conference 9-12 October 2017, Athens, Greece | |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_30|[30]]] |
- | + | Z. X. Lu, X. Wang, Ph. Lauber and F. Zonca, <em>Symmetry breaking of Beta induced Alfvén eigenmode driven by energetic particles.</em>, invited talk at 15thIAEA Technical Meeting on Energetic Particles in Magnetic Confinement Systems 5-8 Sep 2017, Princeton, USA | |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_31|[31]]] |
- | + | I. Novikau, A. Biancalani, A. Bottino, G. D. Conway, O. D. Gurcan, P. Manz, P. Morel, E. Poli, A. Di Siena, the ASDEX Upgrade Team, <em>Linear gyrokinetic investigation of the geodesic acoustic modes in realistic tokamak configurations.</em>, accepted for publication in Phys. Plasmas (2017). | |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_32|[32]]] |
- | + | F. Palermo, E. Poli, A. Bottino, A. Biancalani, G. Conway, B. Scott, <em>Radial acceleration of Geodesic Acoustic Modes in the presence of a temperature gradient.</em>, Phys. Plasmas, 24, 072503 (2017) | |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_33|[33]]] |
- | + | Z. Qiu, I. Chavdarovski, A. Biancalani, J. Cao, <em>On Zero Frequency Zonal Flow and Second Harmonic Generation by Finite Amplitude Energetic Particle Induced Geodesic Acoustic Mode.</em>, Phys. Plasmas, 24, 072509 (2017). | |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_34|[34]]] |
- | + | M. D. J. Cole, A. Biancalani, A. Bottino, R. Kleiber, A. Konies, A. Mishchenko, <em>Toroidal Alfven eigenmodes with nonlinear gyrokinetic and fluid hybrid models.</em>, Phys. Plasmas, 24, 022508 (2017). | |
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</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_35|[35]]] |
- | + | F. Palermo, E. Poli, A. Bottino, A. Biancalani, C. Angioni, G. D. Conway, B. Scott, F. Zonca, <em>Enhanced radial velocity and damping rate of Geodesic Acoustic Modes in the presence of a temperature gradient.</em> Presented at the 44.th EPS Conference on Plasma Physics, Belfast, Northern Ireland, 26 - 30 June (2017) | |
- | + | ||
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_36|[36]]] |
- | + | D. Zarzoso, P. Migliano, V. Grandgirard, G. Latu, C. Passeron, <em>Nonlinear interaction between energetic particles and turbulence in gyro-kinetic simulations and impact on turbulence properties.</em>, Nucl. Fusion, 57, 072011 (2017). | |
- | + | ||
- | + | ||
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_37|[37]]] |
- | + | D. Zarzoso, <em> Particle transport due to the nonlinear phase of energetic-particle-driven geodesic acoustic modes in full-f gyro-kinetic simulations.</em> Invited talk at the 15th IAEA Technical Meeting on Energetic Particles in Magnetic Confinement Systems”, Princeton, USA, 5-8 Sept. 2017 | |
- | + | ||
- | + | ||
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_38|[38]]] |
- | + | Z. X. Lu, C Angioni, A Bottino, E Fable, W Hornsby, X. Wang, Ph. Lauber and Zonca, <em> Local and global analysis of symmetry breaking for ITG and BAE modes</em>, invited talk at 8th IAEA | |
- | + | Technical Meeting on the Theory of Plasma Instabilities, Vienna, Austria, 2017/06/12-14 | |
</li> | </li> | ||
- | + | <li>[[#2017_39|[39]]] | |
- | + | M. Cole et al., Nonlinear gyrokinetic simulation of fast ion-driven modes including continuum interaction, to be published in Physics of Plasmas. | |
- | + | ||
- | + | ||
- | <li> [[# | + | |
- | + | ||
- | + | ||
- | + | ||
- | + | ||
- | + | ||
- | + | ||
- | + | ||
- | + | ||
</li> | </li> | ||
- | <li> | + | <li>[[#2017_40|[40]]] |
- | + | A. Könies, R. Kleiber, C. Slaby, T. Feher, M. Borchardt, A. Mishchenko, Scaling laws for saturated mode amplitudes (oral). IPP Theory Meeting, Berlin, 2017. | |
- | + | ||
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_41|[41]]] |
- | + | C. Slaby et al., Combining electromagnetic particle-in-cell simulations with collisions (poster). DPG-Frühjahrstagung (Spring Meeting), Bremen, Germany, March 13 - March 17, 2017. | |
- | + | ||
</li> | </li> | ||
- | <li> | + | <li>[[#2017_42|[42]]] |
- | + | C. Slaby, R. Kleiber, and A. Könies. Combining electromagnetic gyro-kinetic particle-in-cell simulations with collisions. Computer Physics Communications 218, 1-9 (2017). | |
- | + | ||
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_43|[43]]] |
- | + | [C. Slaby, A. Könies, and R. Kleiber. Effects of collisions on the saturation dynamics of TAEs in tokamaks and stellarators (poster). 15th IAEA TM on Energetic Particles in Magnetic Confinement Systems, Princeton, USA, September 5 - September 9, 2017. | |
- | + | ||
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_44|[44]]] |
- | + | [C. Slaby et al., Effects of collisions on the non-linear dynamics of TAEs in tokamaks and stellarators (poster). 21th International Stellarator-Heliotron Workshop, Kyoto, Japan, October 2 - October 6, 2017. | |
- | + | ||
</li> | </li> | ||
- | <li> | + | <li>[[#2017_45|[45]]] |
- | + | C. Slaby, A. Könies, R. Kleiber, and J. M. García-Regaña, Effects of collisions on the saturation dynamics of TAEs in tokamaks and stellarators, submitted to Nucl. Fusion, 4 December 2017. | |
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_46|[46]]] |
- | + | C. Slab et al., Instabilities driven by fast particles (oral). EUROfusion Science Meeting on Simulation of fast ion generation and transport including 3D effects, remote workshop, 25 October 2017. | |
- | + | ||
</li> | </li> | ||
- | <li > [[# | + | <li>[[#2017_47|[47]]] |
- | + | C. Slaby, A. Könies, and R. Kleiber. Effects of collisions on the saturation dynamics of TAEs in tokamaks and stellarators (oral). IPP Theory Meeting, Berlin, 2017. | |
- | + | ||
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_48|[48]]] |
- | + | A. Mishchenko et al., Mitigation of the cancellation problem in the gyrokinetic particle-in-cell simulations of global electromagnetic modes, Phys. Plasmas 24, 081206 (2017). | |
- | + | ||
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_49|[49]]] |
- | + | A. Mishchenko et al., Pullback approach for gyrokinetic electromagnetic simulations. Invited Talk at the 17th European Fusion Theory Conference, Athens, October 9-12, (2017). | |
- | + | ||
</li> | </li> | ||
- | <li> [[# | + | <li>[[#2017_50|[50]]] |
- | + | M. J. Hole, B. D. Blackwell, G. Bowden, M. Cole, A. Könies, C. Michael, F. Zhao and S. R. Haskey, | |
+ | Global Alfvén eigenmodes in the H-1 heliac, Plasma Phys. Control. Fusion 59, 125007(2017). | ||
</li> | </li> | ||
- | <li > [[# | + | <li>[[#2017_51|[51]]] |
- | + | A. Biancalani, A. Bottino, A. Mishchenko et al., proposed as a contribution at the 27th IAEA Fusion Energy Conference, Ahmedabad, India, 22-27 October 2018. | |
</li> | </li> | ||
- | < | + | </ul> |
- | + | <p> </p> | |
- | + | ||
+ | <h1>Publications/presentations in 2016</h1> | ||
+ | <ul> | ||
+ | <li> [http://www.afs.enea.it/zonca/NLED_temp/publications_2016.pdf Complete list of publications] and presentations in 2016. | ||
</li> | </li> | ||
- | < | + | </ul> |
- | + | <p> </p> | |
+ | |||
+ | <h1>Publications/presentations in 2015</h1> | ||
+ | <ul> | ||
+ | <li> [http://www.afs.enea.it/zonca/NLED_temp/publications_2015.pdf Complete list of publications] and presentations in 2015. | ||
</li> | </li> | ||
- | < | + | </ul> |
- | + | <p> </p> | |
- | + | ||
+ | <h1>Publications/presentations in 2014</h1> | ||
+ | <ul> | ||
+ | <li> [http://www.afs.enea.it/zonca/NLED_temp/publications_2014.pdf Complete list of publications] and presentations in 2014. | ||
</li> | </li> | ||
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</ul> | </ul> |
Latest revision as of 10:05, 11 January 2018
Theory and simulation of energetic particle dynamics and ensuing collective behaviors in fusion plasmas
[NonLinear Energetic particle Dynamics (NLED)]
Principal Investigator:
Project Participants:
Alessandro Biancalani, Alberto Bottino, Matthias Borchardt, Sergio Briguglio, Nakia Carlevaro, Claudio Di Troia, Remi Dumont, Matteo Faganello, Giuliana Fogaccia, Valeria Fusco, Xavier Garbet (till Jan.1st 2017), Ralf Kleiber, Axel Könies, Philipp Lauber, Zhixin Lu, Alexander Milovanov, Oleksiy Mishchenko, Giovanni Montani, Gregorio Vlad, Xin Wang, David Zarzoso
External Collaborators (not supported by NLED funding):
Ilija Chavdarovski (MPPC PostDoc Fellow), Michael Cole (PhD Student), Matteo Falessi (PhD Student till Feb.1st 2017), Thomas Hayward (PhD Student), Malik Idouakass (PhD Student till Feb.1st 2017), Pierluigi Migliano (PostDoc Fellow), Ivan Novikau (PhD Student), Francesco Palermo (PostDoc Fellow), Mirjam Schneller (EUROfusion Fellow till Feb.1st 2016), Christoph Slaby (PhD Student), Xavier Garbet (CEA Faculty)
Participating Research Institutions:
Aix Marseille Univerity, CEA Cadarache, ENEA Frascati, IPP Garching, IPP Greifswald
Objectives of the NLED project 2015-17
The main aim of this project proposal is to assess the essential physics elements for successful numerical simulation of Alfvénic fluctuations and energetic particle behaviors in fusion plasmas. A variety of numerical codes adopting both gyrokinetic as well as hybrid fluid-kinetic approaches will be employed to accomplish this task. Reference plasma scenarios, including these fundamental processes, will be extracted from experimental observations for carrying out numerical studies in conditions of practical interest. Meanwhile, the use of physical models of increasing complexity within numerical simulation codes will allow to clearly identify the importance of accounting for realistic plasma nonuniformity and magnetic field geometry for successful comparisons of numerical simulation results with experimental observations. Furthermore, benchmarking of codes developed for analyzing these physics in tokamak and stellarator devices will provide deeper insights.
Standardized numerical diagnostics, in particular for energetic-particle phase-space, have been developed as part of the 2014 NLED ER Project; and are foreseen as essential ingredient of this project proposal as well as prerequisite for verification of numerical simulation results and code benchmarking for both linear and nonlinear dynamics. Linear simulations will be focused on benchmarking numerical simulations of different types of Alfvénic oscillations with perturbative and non-perturbative fast particle drive; and on the analysis of electron- fishbone stability properties. Meanwhile, nonlinear simulations will address perturbative analyses of multi-mode (Alfvén Eigenmode) scenarios including realistic damping, as well as nonlinear electron-fishbone saturation and self-consistent supra-thermal electron transport. For long time-scale simulations, realistic energetic particle sources and collisions will be taken into account.
Activity Reports
- [1] 2014 NLED Activity Report. PDF
- [2] 2015 NLED Activity Report. PDF
- [3] 2016 NLED Mid-Term Report. PDF
- [4] 2016 NLED Activity Report. PDF
- [5] 2017 NLED Final Report. PDF
Publications/presentations in 2017
- [1] S. Briguglio, M. Schneller, X. Wang, C. Di Troia, T. Hayward-Schneider, V. Fusco, G. Vlad and G. Fogaccia, Saturation of Alfvén modes in tokamak plasmas investigated by Hamiltonian mapping techniques. Nucl. Fusion 57, 072001 (2017) (21pp). PDF
- [2] F. Zonca and L. Chen, On the nonlinear dynamics of phase space zonal structures. Invited Talk at the 11th West Lake International Symposium on Energetic Particle Physics and Microturbulence in Magnetic Fusion, Hangzhou, China, April 24-26, (2017). PDF
- [3] Z. Qiu, L. Chen and F. Zonca, Nonlinear excitation of finite-radial-scale zonal structures by toroidal Alfvén eigenmode. Nucl. Fusion 57, 056017 (2017) (10pp). PDF (30% NLED support)
- [4] A. Biancalani, A. Bottino, M. Cole, C. Di Troia, Ph. Lauber, A. Mishchenko, B. Scott and F. Zonca, Nonlinear interplay of Alfvén instabilities and energetic particles in tokamaks. Plasma Phys. Control. Fusion 59, 054004 (2017) (14pp). PDF
- [5] F. Zonca, X. Tao and L. Chen, Nonlinear wave-particle dynamics in chorus excitation, ECA vol. 41F (EPS) Paper No. P2.412. Presented at the 44.th EPS Conference on Plasma Physics, Belfast, Northern Ireland, 26 - 30 June (2017). PDF (30% NLED support)
- [6] L. Chen and F. Zonca, On energetic-particle excitations of low-frequency Alfvén eigenmodes in toroidal plasma. Physics of Plasmas 24, 072511 (2017) (10pp). PDF (50% NLED support)
- [7] F. Zonca et al., Physics of Energetic Particles and Alfvén Waves. Tutorial Invited Talk at the 17th European Fusion Theory Conference, Athens, October 9-12, (2017). PDF
- [8] F. Zonca and L. Chen, The fishbone burst cycle. Invited Talk at the Trilateral International Workshop on Energetic Particle Physics, Hangzhou, China, November 10-12, (2017). PDF
- [9] A. Biancalani, I. Chavdarovski, Z. Qiu, A. Bottino, D. Del Sarto, A. Ghizzo, O. Gurcan, P. Morel, I. Novikau, Saturation of energetic-particle-driven geodesic acoustic modes due to wave-particle nonlinearity. Journal of Plasma Physics 83, 6 725830602 (2017) (10pp). PDF (33% NLED support)
- [10] A. Biancalani, et al., Gyrokinetic investigation of zonal structures in tokamaks. Talk at the 9th Festival de Theorie, Aix-en-Provence, June 29th, 2017. (33% NLED support)
- [11] A. Biancalani, et al., Nonlinear gyrokinetic investigation of energetic-particle-driven geodesic acoustic modes. Poster at the 17th European Fusion Theory Conference, Athens, Greece, October 9-12, 2017. PDF
- [12] N. Carlevaro, et al., Avalanches in multi-mode simulations of the beam-plasma system: applications to fusion plasmas and its criticalities. To be Submitted to J. Plasma Phys.
- [13] N. Carlevaro, G. Montani, F. Zonca, Saturation level and resonance overlap in Hamiltonian BoT systems. To be Submitted to Europhys. Lett.
- [14] G. Vlad, V. Fusco, S. Briguglio, C. Di Troia, G. Fogaccia, F. Zonca, and X. Wang, Modeling of electron fishbones. Invited Talk at the Trilateral International Workshop on Energetic Particle Physics, Hangzhou, China, November 10-12, (2017). PDF
- [15] G. Vlad, S. Briguglio, G. Fogaccia, V. Fusco, C. Di Troia, E. Giovannozzi, and X. Wang, Single-n versus multiple-n simulations of Alfvénic global modes. Poster presented at the “15th IAEA Technical Meeting on Energetic Particles in Magnetic Confinement Systems”, Princeton 5-8 Sept. 2017. PDF
- [16] G. Vlad, S. Briguglio, G. Fogaccia, V. Fusco, C. Di Troia, E. Giovannozzi, X. Wang and F. Zonca, Single-n versus multiple-n simulations of Alfvénic modes. Submitted to Nuclear Fusion (2017)
- [17] C. Di Troia, Non perturbative guiding center transformation: the gyrophase is the Kaluza-Klein 5th dimension., Conference in CIRM, Marseille, 30 October- 3 November 2017, Collisionless Boltzmann (Vlasov) Equation and Modelling of Self-Gravitating Systems and Plasmas.
- [18] C. Di Troia, Non perturbative guiding center and stochastic gyrocenter transformations: gyrophase is the Kaluza-Klein 5th dimension also for reconciling General Relativity with Quantum Mechanics., submitted to Physical Review D, (2017).
- [19] T Hayward-Schneider and Ph Lauber, Nonlinear energetic particle transport by Alfvén eigenmodes and sensitivity study of hybrid-gyrokinetic physics models., Poster at the 15th IAEA TCM on EPs; PPPL, USA (September 2017), in preparation for NF special issue PDF
- [20] M Schneller et al, The Effect of EP-induced Geodesic Acoustic Modes on Microturbulence., Invited talk at MPPC meeting, Greifswald (Sept. 2017) PDF
- [21] M Schneller et al, Investigation of EP induced Geosedic Acoustic Modes., Poster at the 15th IAEA TCM on EPs; PPPL, USA (Sept. 2017) PDF
- [22] Ph Lauber et al, Onset of strongly non-linear energetic particle dynamics at ASDEX Upgrade., Presentation at MPPC meeting, Greifswald (Sept. 2017) PDF
- [23] Ph Lauber et al, Linear kinetic simulations of modes in the BAE and BAAE frequency regime., 18th ITPA EP meeting, Seville, Spain (May 2017) PDF
- [24] Ph Lauber et al, Energetic Particle (EP) modeling for JT-60 SA., 6th Research and Coordination Meeting JT60-SA Planning Meeting, Naka, Japan (May 2017)
- [25] A Bierwage and Ph Lauber,Gyrokinetic analysis of low-n shear Alfvén and ion sound wave spectra in a high-beta tokamak plasma., Nuclear Fusion, 57, 11 (2017) (50% NLED support)
- [26] Ph Lauber et al, Validating models for energetic particles in the view of ITER and DEMO., Invited talk at the EFPW, Dubrovnik (Nov. 2017) PDF
- [27] Z. X. Lu, X. Wang, Ph. Lauber, F. Zonca, Mode structure symmetry breaking of energetic particle driven Beta-induced Alfvén Eigenmode., submitted to Phys. Plasmas
- [28] Z. X. Lu, X. Wang, Ph. Lauber, F. Zonca, Kinetic effects of thermal ions and energetic particles on discrete kinetic BAE mode generation and symmetry breaking., submitted to Nucl. Fusion
- [29] Z. X. Lu, C Angioni, A Bottino, E Fable, W Hornsby, X. Wang, Ph. Lauber and Zonca, Local and global analysis of symmetry breaking for ITG and BAE modes., 17thEuropean Fusion Theory Conference 9-12 October 2017, Athens, Greece
- [30] Z. X. Lu, X. Wang, Ph. Lauber and F. Zonca, Symmetry breaking of Beta induced Alfvén eigenmode driven by energetic particles., invited talk at 15thIAEA Technical Meeting on Energetic Particles in Magnetic Confinement Systems 5-8 Sep 2017, Princeton, USA
- [31] I. Novikau, A. Biancalani, A. Bottino, G. D. Conway, O. D. Gurcan, P. Manz, P. Morel, E. Poli, A. Di Siena, the ASDEX Upgrade Team, Linear gyrokinetic investigation of the geodesic acoustic modes in realistic tokamak configurations., accepted for publication in Phys. Plasmas (2017).
- [32] F. Palermo, E. Poli, A. Bottino, A. Biancalani, G. Conway, B. Scott, Radial acceleration of Geodesic Acoustic Modes in the presence of a temperature gradient., Phys. Plasmas, 24, 072503 (2017)
- [33] Z. Qiu, I. Chavdarovski, A. Biancalani, J. Cao, On Zero Frequency Zonal Flow and Second Harmonic Generation by Finite Amplitude Energetic Particle Induced Geodesic Acoustic Mode., Phys. Plasmas, 24, 072509 (2017).
- [34] M. D. J. Cole, A. Biancalani, A. Bottino, R. Kleiber, A. Konies, A. Mishchenko, Toroidal Alfven eigenmodes with nonlinear gyrokinetic and fluid hybrid models., Phys. Plasmas, 24, 022508 (2017).
- [35] F. Palermo, E. Poli, A. Bottino, A. Biancalani, C. Angioni, G. D. Conway, B. Scott, F. Zonca, Enhanced radial velocity and damping rate of Geodesic Acoustic Modes in the presence of a temperature gradient. Presented at the 44.th EPS Conference on Plasma Physics, Belfast, Northern Ireland, 26 - 30 June (2017)
- [36] D. Zarzoso, P. Migliano, V. Grandgirard, G. Latu, C. Passeron, Nonlinear interaction between energetic particles and turbulence in gyro-kinetic simulations and impact on turbulence properties., Nucl. Fusion, 57, 072011 (2017).
- [37] D. Zarzoso, Particle transport due to the nonlinear phase of energetic-particle-driven geodesic acoustic modes in full-f gyro-kinetic simulations. Invited talk at the 15th IAEA Technical Meeting on Energetic Particles in Magnetic Confinement Systems”, Princeton, USA, 5-8 Sept. 2017
- [38] Z. X. Lu, C Angioni, A Bottino, E Fable, W Hornsby, X. Wang, Ph. Lauber and Zonca, Local and global analysis of symmetry breaking for ITG and BAE modes, invited talk at 8th IAEA Technical Meeting on the Theory of Plasma Instabilities, Vienna, Austria, 2017/06/12-14
- [39] M. Cole et al., Nonlinear gyrokinetic simulation of fast ion-driven modes including continuum interaction, to be published in Physics of Plasmas.
- [40] A. Könies, R. Kleiber, C. Slaby, T. Feher, M. Borchardt, A. Mishchenko, Scaling laws for saturated mode amplitudes (oral). IPP Theory Meeting, Berlin, 2017.
- [41] C. Slaby et al., Combining electromagnetic particle-in-cell simulations with collisions (poster). DPG-Frühjahrstagung (Spring Meeting), Bremen, Germany, March 13 - March 17, 2017.
- [42] C. Slaby, R. Kleiber, and A. Könies. Combining electromagnetic gyro-kinetic particle-in-cell simulations with collisions. Computer Physics Communications 218, 1-9 (2017).
- [43] [C. Slaby, A. Könies, and R. Kleiber. Effects of collisions on the saturation dynamics of TAEs in tokamaks and stellarators (poster). 15th IAEA TM on Energetic Particles in Magnetic Confinement Systems, Princeton, USA, September 5 - September 9, 2017.
- [44] [C. Slaby et al., Effects of collisions on the non-linear dynamics of TAEs in tokamaks and stellarators (poster). 21th International Stellarator-Heliotron Workshop, Kyoto, Japan, October 2 - October 6, 2017.
- [45] C. Slaby, A. Könies, R. Kleiber, and J. M. García-Regaña, Effects of collisions on the saturation dynamics of TAEs in tokamaks and stellarators, submitted to Nucl. Fusion, 4 December 2017.
- [46] C. Slab et al., Instabilities driven by fast particles (oral). EUROfusion Science Meeting on Simulation of fast ion generation and transport including 3D effects, remote workshop, 25 October 2017.
- [47] C. Slaby, A. Könies, and R. Kleiber. Effects of collisions on the saturation dynamics of TAEs in tokamaks and stellarators (oral). IPP Theory Meeting, Berlin, 2017.
- [48] A. Mishchenko et al., Mitigation of the cancellation problem in the gyrokinetic particle-in-cell simulations of global electromagnetic modes, Phys. Plasmas 24, 081206 (2017).
- [49] A. Mishchenko et al., Pullback approach for gyrokinetic electromagnetic simulations. Invited Talk at the 17th European Fusion Theory Conference, Athens, October 9-12, (2017).
- [50] M. J. Hole, B. D. Blackwell, G. Bowden, M. Cole, A. Könies, C. Michael, F. Zhao and S. R. Haskey, Global Alfvén eigenmodes in the H-1 heliac, Plasma Phys. Control. Fusion 59, 125007(2017).
- [51] A. Biancalani, A. Bottino, A. Mishchenko et al., proposed as a contribution at the 27th IAEA Fusion Energy Conference, Ahmedabad, India, 22-27 October 2018.
Publications/presentations in 2016
- Complete list of publications and presentations in 2016.
Publications/presentations in 2015
- Complete list of publications and presentations in 2015.
Publications/presentations in 2014
- Complete list of publications and presentations in 2014.