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Abstract
In the present work a novel electron-ion merged-beam setup for electron cooling and electron-ion recombination studies has been implemented in the electrostatic cryogenic storage ring CSR and commissioned. The photocathode setup for cold electron beams previously operating at the heavy ion storage ring TSR has been integrated in the CSR electron cooler. After first tests of the electron beam transport, realized by superconducting magnets in the cryogenic part of the storage ring, systematic studies of electron cooling of stored keV ion beams were performed. Efficient electron cooling of atomic ions F^[6+] and O^[+] as well as molecular ions HeH+ and HD+ has been realized and investigated at low electron energies down to about 10 eV and at low electron densities of only a few times 10^[5] cm^[−3]. Electron cooling times in the range of only a few seconds and transverse beam widths of cooled ion beams in the millimeter range have been shown. The blow-up of the transverse beam widths and bunch lengths of electron cooled ion beams due to diffusive heating processes like intrabeam-scattering has been measured by varying the ion current. Furthermore, space charge effects of bunched ion beams have been investigated in an electron cooled equilibrium.
Document type: | Dissertation |
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Supervisor: | Wolf, Prof. Dr. Andreas |
Place of Publication: | Heidelberg |
Date of thesis defense: | 11 July 2019 |
Date Deposited: | 19 Jul 2019 15:27 |
Date: | 2019 |
Faculties / Institutes: | Service facilities > Max-Planck-Institute allgemein > MPI for Nuclear Physics |
DDC-classification: | 530 Physics |