Swiss Plasma Center

Our mission: Shaping the Sun’s energy on Earth

Interior of the TCV tokamak. © A. Herzog, EPFL

The Swiss Plasma Center is one of the world’s leading fusion research laboratories.

Fusion is based on the principle that powers the Sun and it has the potential to provide a solution to humanity’s energy problem.

Through a wide range of research programs, all connected to education and training at different levels, we work to advance our understanding of the physics of plasmas and develop fusion as an energy source.

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Research

The Swiss Plasma Center conducts a comprehensive research programme organised in six research lines: Plasma Theory, Basic Plasma Physics, TCV Tokamak Physics, International Collaborations, Superconductivity for Fusion, and Plasma Applications

Education

The Swiss Plasma Center is committed to preparing the next generations of fusion scientists and engineers. We provide education in Physics for students of all levels (Bachelor, Master and Doctoral School) and various sections. We are continuously training around 40 PhD students.

Outreach

The Swiss Plasma Center conducts a variety of outreach initiatives, encompassing visits of the Center, conferences given on-site or outside, as well as the publication of printed or electronic documents for the general public

Quick links

The tokamak thermonuclear fusion reactor at Swiss Plasma Center. Credit: Alain Herzog (EPFL)

A new law unchains fusion energy

17.05.22Research

Physicists at EPFL, within a large European collaboration, have revised one of the fundamental laws that has been foundational to plasma and fusion research for over three decades, even governing the design of megaprojects like ITER. The update shows that we can actually safely use more hydrogen fuel in fusion reactors, and therefore obtain more energy than previously thought.

Interview of Arsène Tema Biwole Excellence in Africa Ambassador, EPFL

04.05.22EPFL community

Arsène Tema Biwolé is a Cameroonian physicist, passionate about nuclear technologies and collaborates at the Swiss Plasma Center of EPFL.

Plasma inside the TCV tokamak. Picture: Curdin Wüthrich /SPC/EPFL

EPFL and DeepMind use AI to control plasmas for nuclear fusion

16.02.22Research

Scientists at EPFL’s Swiss Plasma Center and DeepMind have jointly developed a new method for controlling plasma configurations for use in nuclear fusion research.

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The last 5 papers of the Swiss Plasma Center

Overview of JET results for optimising ITER operation

J. Mailloux; N. Abid; K. Abraham; P. Abreu; O. Adabonyan et al.

Nuclear Fusion. 2022-04-01. Vol. 62, num. 4, p. 042026. DOI : 10.1088/1741-4326/ac47b4.

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The power threshold of H-mode access in mixed hydrogen-tritium and pure tritium plasmas at JET with ITER-like wall

G. Birkenmeier; E. R. Solano; E. Lerche; D. Taylor; D. Gallart et al.

Nuclear Fusion. 2022-08-01. Vol. 62, num. 8, p. 086005. DOI : 10.1088/1741-4326/ac6d6b.

Detailed record

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Design of an intake and a thruster for an atmosphere-breathing electric propulsion system

F. Romano; G. Herdrich; Chan; N. H. Crisp; P. C. E. Roberts et al.

Ceas Space Journal. 2022-05-27. DOI : 10.1007/s12567-022-00452-1.

Detailed record

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Effect of Local Defects on HTS Fusion Magnets Performance

A. Zappatore; R. Bonifetto; X. Sarasola; R. Zanino

Ieee Transactions On Applied Superconductivity. 2022-08-01. Vol. 32, num. 5, p. 4203809. DOI : 10.1109/TASC.2022.3169718.

Detailed record

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The GBS code for the self-consistent simulation of plasma turbulence and kinetic neutral dynamics in the tokamak boundary

M. Giacomin; P. Ricci; A. Coroado; G. Fourestey; D. Galassi et al.

Journal Of Computational Physics. 2022-08-15. Vol. 463, p. 111294. DOI : 10.1016/j.jcp.2022.111294.

Detailed record

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