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Confinement of relativistic electrons in a magnetic mirror en route to a magnetized relativistic pair plasma

Jens von der Linden, G. Fiksel, J. Peebles, Matthew R. Edwards, L. Willingale, A. Link, D. Mastrosimone, Hui Chen

2021Physics of Plasmas15 citationsDOIOpen Access PDF

Abstract

Creating a magnetized relativistic pair plasma in the laboratory would enable the exploration of unique plasma physics relevant to some of the most energetic events in the universe. As a step toward a laboratory pair plasma, we have demonstrated an effective confinement of multi-MeV electrons inside a pulsed-power-driven 13 T magnetic mirror field with a mirror ratio of 2.6. The confinement is diagnosed by measuring the axial and radial losses with magnetic spectrometers. The loss spectra are consistent with ≤2.5 MeV electrons confined in the mirror for ∼1 ns. With a source of 1012 electron-positron pairs at comparable energies, this magnetic mirror would confine a relativistic pair plasma with Lorentz factor γ∼6 and magnetization σ∼40.

Topics & Concepts

PhysicsPlasmaElectronRelativistic plasmaLorentz factorAtomic physicsMagnetic mirrorMagnetic fieldLorentz transformationNuclear physicsQuantum mechanicsLaser-Plasma Interactions and DiagnosticsMagnetic confinement fusion researchHigh-pressure geophysics and materials