P. Naubereit scite author profile

Resonant laser ionization and spectroscopy are widely used techniques at radioactive ion beam facilities to produce pure beams of exotic nuclei and measure the shape, size, spin and electromagnetic multipole moments of these nuclei. However, in such measurements it is difficult to combine a high efficiency with a high spectral resolution. Here we demonstrate the on-line application of atomic laser ionization spectroscopy in a supersonic gas jet, a technique suited for high-precision studies of the ground- and isomeric-state properties of nuclei located at the extremes of stability. The technique is characterized in a measurement on actinium isotopes around the N=126 neutron shell closure. A significant improvement in the spectral resolution by more than one order of magnitude is achieved in these experiments without loss in efficiency.

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Resonance ionization of holmium for ion implantation in microcalorimeters

Schneider

Chrysalidis

Dorrer

et al. 2016

Nuclear Instruments and Methods in Physics Research Section B:

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In-gas laser ionization and spectroscopy of actinium isotopes near the N=126 closed shell

Granados¹,

Grawe²,

Franchoo³

et al. 2017

Phys. Rev. C

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Developments towards in-gas-jet laser spectroscopy studies of actinium isotopes at LISOL

Raeder

Bastin

Block

et al. 2016

Nuclear Instruments and Methods in Physics Research Section B:

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Atomic transitions and the first ionization potential of promethium determined by laser spectroscopy

et al. 2019

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The atomic spectrum of neutral promethium has been studied extensively by laser resonance ionization spectroscopy. We report on more than 1000 atomic transitions in the blue and near infrared spectral ranges, most of them between high excited energy levels. As Rydberg convergences could not be assigned unambiguously in the dense spectrum at high excitation energies, the first ionization potential (IP) was determined via field ionization of weakly bound states within a static electric field. By applying the saddle-point model, a value of IP (Pm) = 45 020.8(3) cm −1 [5.58188(4) eV] was derived, which confirms previous expectations of 45 027(80) and 44 985(140) cm −1 , which were obtained indirectly from lanthanide IP systematics.

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P. Naubereit

Towards high-resolution laser ionization spectroscopy of the heaviest elements in supersonic gas jet expansion

Resonance ionization of holmium for ion implantation in microcalorimeters

In-gas laser ionization and spectroscopy of actinium isotopes near the N=126 closed shell

Developments towards in-gas-jet laser spectroscopy studies of actinium isotopes at LISOL

Atomic transitions and the first ionization potential of promethium determined by laser spectroscopy

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