| Paper |
Title |
Page |
| MOPP111 |
Beam Tests with the MAFF IH-RFQ at the IAP-Frankfurt
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817 |
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- H. Z. Zimmermann, D. Habs
LMU, München
- A. Bechtold, P. Kolb, A. Schempp
IAP, Frankfurt am Main
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The IH-type RFQ for the MAFF project at the LMU Munich is integrated into a test bench at the IAP in Frankfurt. The existing IH-RFQ set-up is the second after the HIS at GSI and the first one that can be directly compared to a very similar 4-rod type machine, the REX-ISOLDE RFQ at CERN. The test bench consists of an ionsource, an electrostatic quadrupole lens system with implemented steerers, and several beam diagnostic like a two dimensional emittance scanner, bending magnet and a fast faraday cup. Experimental results will be presented. These tests accompanied with theoretical investigations will be done with special respect to the applicability of such normal conducting RFQ accelerators to the EURISOL post accelerator.
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| WEPC099 |
A Superconductive Undulator for the Munich Laser-plasma Accelerator
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2228 |
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- P. Peiffer, T. Baumbach, A. Bernhard, D. Wollmann
University of Karlsruhe, Karlsruhe
- F. J. Gruener, D. Habs, C. Huebsch, R. Weingartner
LMU, Garching
- R. Rossmanith
FZK, Karlsruhe
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Laser-plasma accelerators are expected to produce electron beams with bunch charges in the nano-Coulomb range with energies in the GeV range. By employing short-period superconductive undulators this may be utilized for the generation of undulator radiation in the X-ray regime with a compact laboratory-sized set up. In this contribution we report on the project of testing this concept at the Laser-Plasma Accelerator in Munich. A particular aim of this project is to push the superconductive undulator technology to shortest periods and highest on-axis fields at gap widths sufficiently large to reduce the impact of resistive wall wake fields on the electron beam. This might open a path to the generation of coherent radiation via the SASE process.
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