Measurement of shifts in the electron affinities of chlorine isotopes

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Presentation transcript:

Measurement of shifts in the electron affinities of chlorine isotopes Dag Hanstorp Measurement of shifts in the electron affinities of chlorine isotopes Dag Hanstorp, Jakob Welander, David Leimbach, Annie Ringvall-Moberg, Michel Godefroid,, Per Jönsson, Jörgen Ekman, Tomas Brage, Klaus Wendt, Reinhard Heinke, Oliver Forstner, Yuan Liu, Ronald Garcia Ruiz, Shane Wilkins, Adam Vernon, Cory Binnersley, Kieran Flanagan, Gerda Neyens, Agi Koszorus, Kara Lynch, Sebastian Rothe, Tim Giles, Katerina Chrysalidis, Pierre Larmonier, Valentin Fedosseev and Bruce Marsh. INTC meeting 28th of June 2017

Negative Ions

Negative Ions Electron correlation of vital importance Small Electron affinities (EA) (appr. 1 eV) Few (if any) excited states No traditional spectroscopy Energy EA X X-

Isotope shift IS = MS + VS IS = NMS + SMS + VS Observable Trivial Atomic Nuclear Physics Physics

Isotope shift in electron affinity Ideal test case for electron correlation 1H/ 2H Lykke, Murray and Lineberger, Phys. Rev. A 43 (1991) 6104 35Cl/37Cl Berzinsh et al. Phys. Rev. A 51, (1995) 231 16O/ 17O / 18O Blondel et al. Phys. Rev. A 64 (2001) 052504 32S/ 34S Carette, et al. Phys. Rev. A 81 (2010) 042522 12C/ 13C Bresteau, Drag and Blondel, Phys. Rev. A 93 (2016) 013414 206Pb / 208Pb Chen and Ning, J. Chem. Phys. 145 (2016) 084303 Only stable isotopes investigated

Isotope shift in EA of 35/37Cl SMS = — 0.51(14) GHz Berzinsh et al. Phys. Rev. A 51, (1995) 231

Isotope shift in EA of 35/37Cl

Proposal: Measure EA of Cl isotopes Measure IS for two well separated even isotopes GLM beamline, RILIS lasers (l = 343 nm) Goal: data for improved atomic theory calculations using full relativistic multiconfiguration Dirac-Hartree-Fock (MCDHF) Important results when extracting VS from measured IS Question from TAC: Not clear if n-def Cl is also required? Does this affect the beam request?

GANDALPH FC e- I- I- I ITO covered glass Drawing: Annie Ringvall -Moberg

Laser photodetachment of radioactive 128I Studies of atomic negative ions at CERN Laser photodetachment of radioactive 128I Sebastian Rothe, Julia Sundberg, Jakob Welander, Katerina Chrysalidis, Thomas Day Goodacre, Valentin Fedosseev, Spyridon Fiotakis, Oliver Forstner, Reinhard Heinke, Karl Johnston, Tobias Kron, Ulli Koster, Yuan Liu, Bruce Marsh, Annie Ringvall-Moberg, Ralf Erik Rossel, Christoph Seiffert, Dominik Studer, Klaus Wendt , and Dag Hanstorp Accepted by J. Phys G Ion rate: 35 000 s-1 Measurement time: 39 min EA: 3.059 052(38) eV The Wigner law: s = k (E-EEA)l+1/2

Proposal INTC-P-462: Determination of the electron affinity of astatine and polonium 70 mg in the crust of the earth (1 atom per 100 kg mass) Small knowledge about chemical and physical properties Used in Targeted Alfa Therapy Ion rate (211At-): 6 200 s-1 Measurement time: ~1 h Upper limit for EA(At): < 3.06 eV

Current activity Master student David Leimbach improving GANDALPH: Beam diagnostics Dedicated particle detector for tuning Segmented collimators Improve Vacuum further Surface ion source for off-line tests Computer controlled ion optics

BEAM TIME REQUEST ~We can select two well separated isotopes where we get sufficient yield Experiment possible with 3 105 ions at GLM port

OUTLOOK: GANDALPH @ CRIS Only elements wtih EA > 2,6 eV, i.e. halogens be produced efficiently with surface ionizer Negative ions are already produced in the charge exchange cell at CRIS Narrow bandwidth lasers of CRIS needed for IS measurement Collaboration between GANDALPH AND CRIS teams initiated GANDALPH will be placed behind CRIS (during LS2)

Thank you for your attention!