Bochum 2009 – scientific programme

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HK: Fachverband Hadronen und Kerne

HK 67: Poster Session

HK 67.42: Poster

Thursday, March 19, 2009, 14:00–16:00, Audi-Max

Towards optical access to the lowest nuclear transition in ^229mTh^† — •P.G. Thirolf¹, M. Bussmann^1,3, D. Habs¹, J. Neumayr¹, T. Schaetz², H. Schmitz^1,2, J. Schreiber^1,4, J. Szerypo¹, L. Trepl¹, and H.-F. Wirth¹ — ¹LMU München, Garching, Germany — ²MPI für Quantenoptik, Garching, Germany — ³FZ Dresden, Dresden, Germany — ⁴Imperial College, London, UK

^229mTh exhibits the lowest-lying nuclear excitation with an excitation energy of only 7.6(5) eV (163(11) nm) and an isomeric lifetime of ∼ 10⁴ s, giving rise to an extremely sharp relative line width of the ground state transition of ∼ 10⁻²⁰. This transition qualifies as an extremely sharp frequency standard, allowing to build a nuclear clock with unprecedented accuracy. Moreover, theoretical calculations predict an enhancement of the sensitivity to time dependent variations of fundamental constants like the fine structure constant α by about 10⁶. Laser excitation of the 7.6 eV transition requires a precise knowledge of the transition energy. Therefore the ^229mTh isomers are populated via α decay from ²³³U in a buffer gas cell, from where they are selectively extracted and collected. The UV fluorescence photons are then collimated via a MgF₂ lens and sharp filters onto an MCP detector and secondary electrons are registered on a phosphorous screen by a CCD camera. In order to prepare for subsequent sympathetic laser cooling in a ²⁴Mg⁺ Coulomb crystal, a laser setup consisting of an Yb fibre laser and a frequency quadrupling stage is presently under construction.

^†Supported by the DFG Cluster of Excellence MAP (Munich-Centre for Advanced Photonics).