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Session CP8: Poster Session II: Reconnection and Non-Neutral I; Spheromaks and MCX; MFC Diagnostics; Simulation: Algorithm; Simulation: Kinetic/Edge

Monday, November 12, 2007
Rosen Centre Hotel Room: Grand Ballroom, 2:00pm - 5:00pm


Abstract ID: BAPS.2007.DPP.CP8.29

Abstract: CP8.00029 : Limits of Particle-beam Extraction from Single-Component Plasmas*

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Authors:

T.R. Weber
J.R. Danielson
C.M. Surko
(University of California, San Diego)

Recently, a non-destructive technique was developed to create finely focused beams of electrons (or positrons) from single-component plasmas confined in a Penning-Malmberg trap\footnote{J. R. Danielson et al., Appl. Phys. Lett. {\bf 90}, 081503 (2007).}. This technique exploits the fact that the plasma potential is largest near the plasma center; thus, when the confining potential at one end is carefully lowered, a beam is formed that is composed only of particles escaping from the region near r = 0. Here, we investigate the limits of this technique. A simple model for beam extraction is described that predicts a Gaussian beam profile when the number of extracted particles is small. This expression gives a minimum beam diameter of four Debye lengths (full width to 1/e) and is verified using electron plasmas over a broad range of plasma temperatures (0.05 $< T <$ 2 eV) and densities (0.06 $< n <$ 2$\times$10$^{10}$). Numerical calculations are used to predict the profiles of beams with large numbers of extracted particles, and they are in fair agreement with the measurements. The extraction of over 50\% of a trapped plasma in a train of nearly identical beams is demonstrated. Applications to create state-of-the-art positron beams, including the possibility of extracting the beam from the magnetic field to form an electrostatic beam, are also discussed.

*This work supported by NSF, grants PHY 03-54653 and PHY 07-13958.

To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2007.DPP.CP8.29