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P: Fachverband Plasmaphysik

P 16: Poster Session 3

P 16.5: Poster

Mittwoch, 11. März 2020, 16:30–18:30, Empore Lichthof

Developments towards an electron-positron plasma in a magnetic dipole trap — •J. Horn-Stanja¹, A. Deller¹, U. Hergenhahn¹, S. Nißl¹, E. V. Stenson¹, M. R. Stoneking¹, T. Sunn Pedersen¹, H. Saitoh², C. Hugenschmidt³, M. Singer³, J. R. Danielson⁴, and C. M. Surko⁴ — ¹Max Planck Institute for Plasma Physics, Germany — ²The University of Tokyo, Japan — ³Technische Universität München, Germany — ⁴University of California San Diego, USA

The electron-positron many-body system in the plasma state is distinguished by the mass equality of the constituents, leading to stability and wave-physics properties fundamentally different from those of conventional plasmas. The creation of such “pair plasma” in the magnetic field of a levitated dipole is the goal of the APEX/PAX collaboration.

Although lossless injection and second-long trapping of positrons has been demonstrated in experiments with a supported dipole at the first-class positron source NEPOMUC, the number of available positrons remains a key challenge. While a small positron Debye length in the pair plasma eventually requires the use of a multicell storage trap, current single-particle experiments will benefit from the recent development of the intense NEPOMUC primary beam at lower energies or the upcoming installation of a buffer gas trap at NEPOMUC which will provide dense positron pulses. First experiments using electrons and positrons simultaneously in a dipole trap are one such example.

In this contribution, we discuss recent and upcoming developments within the scope of the APEX project.