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Production of radioactive molecular beams for CERN-ISOLDE

Seiffert, Christoph (2015):
Production of radioactive molecular beams for CERN-ISOLDE.
TU Darmstadt, CERN, [Online-Edition: http://tuprints.ulb.tu-darmstadt.de/4599],
[Ph.D. Thesis]

Abstract

ISOLDE, the Isotope Separation On-Line facility, at CERN is a leading facility for the production of beams of exotic radioactive isotopes. Currently over 1000 different isotopes with half lives down to milliseconds can be extracted with beam intensities of up to 10^11 ions per second. However, due to the reactive target environment not all isotopes are extractable in sufficient amounts. In this work the extraction of short lived carbon and boron isotopes is investigated. Therefore a variety of experimental and computanional techniques have been used.

Item Type: Ph.D. Thesis
Erschienen: 2015
Creators: Seiffert, Christoph
Title: Production of radioactive molecular beams for CERN-ISOLDE
Language: English
Abstract:

ISOLDE, the Isotope Separation On-Line facility, at CERN is a leading facility for the production of beams of exotic radioactive isotopes. Currently over 1000 different isotopes with half lives down to milliseconds can be extracted with beam intensities of up to 10^11 ions per second. However, due to the reactive target environment not all isotopes are extractable in sufficient amounts. In this work the extraction of short lived carbon and boron isotopes is investigated. Therefore a variety of experimental and computanional techniques have been used.

Divisions: 05 Department of Physics > Institute of Nuclear Physics
05 Department of Physics
Date Deposited: 28 Jun 2015 19:55
Official URL: http://tuprints.ulb.tu-darmstadt.de/4599
URN: urn:nbn:de:tuda-tuprints-45998
Referees: Kröll, Prof.Dr. Thorsten and Stora, Dr. Thierry
Refereed / Verteidigung / mdl. Prüfung: 4 February 2015
Alternative Abstract:
Alternative abstract Language
ISOLDE, die Isotope Separation Online facility, am CERN ist eine führende Anlage für die Produktion radioaktiver Teilchenstrahlen. Derzeit können mehr als 1000 Isotope mit Halbwertszeiten bis zu wenigen Millisekunden und Strahlintensitäten von bis zu 10^11 Ionen pro Sekunde extrahiert werden. Trotz dieser Vielzahl ist es nicht möglich, alle gewünschten Isotope aus der reaktiven Targetumgebung zu extrahieren. In dieser Arbeit wird die Extraktion von exotischen Kohlenstoff und Bor Isotopen untersucht. Hierzu wurde eine Vielzahl experimenteller und rechnerischer Methoden verwendet.German
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