Dielectronic recombination of lithium-like Ni25+ ions - high resolution rate coefficients and influence of external crossed E and B fields

Abstract

Absolute dielectronic recombination (DR) rates for lithium-like Ni25+(1s2 2s) ions were measured at high-energy resolution at the Heidelberg heavy-ion storage ring TSR. We studied the center-of-mass energy range 0--130 eV which covers all n=0 core excitations. The influence of external crossed electric (0--300 V/cm) and magnetic (41.8--80.1 mT) fields was investigated. For the measurement at near-zero electric field resonance energies and strengths are given for Rydberg levels up to n=32; also Maxwellian plasma rate coefficients for the n=0 DR at electron temperatures between 0.5 and 200 eV are provided. For increasing electric field strength we find that for both the 2p1/2 and the 2p3/2 series of Ni24+(1s2 2pj n) Rydberg resonances with n>30 the DR rate coefficient increases approximately linearly by up to a factor of 1.5. The relative increase due to the applied electric field for Ni25+ is remarkably lower than that found in previous measurements with lighter isoelectronic Si11+, Cl14+ and also Ti19+ ions, [T. Bartsch et al, Phys. Rev. Lett. 79, 2233 (1997); 82, 3779 (1999) and to be published] and in contrast to the results for lighter ions no clear dependence of the electric field enhancement on the magnetic field strength is found. The Maxwellian plasma rate coefficients for n=0 DR of Ni25+ are enhanced by at most 11% in the presence of the strongest experimentally applied fields.

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