Physical Review Research (Oct 2021)

Hypersonic nozzle for laser-spectroscopy studies at 17 K characterized by resonance-ionization-spectroscopy-based flow mapping

  • R. Ferrer,
  • M. Verlinde,
  • E. Verstraelen,
  • A. Claessens,
  • M. Huyse,
  • S. Kraemer,
  • Yu. Kudryavtsev,
  • J. Romans,
  • P. Van den Bergh,
  • P. Van Duppen,
  • A. Zadvornaya,
  • O. Chazot,
  • G. Grossir,
  • V. I. Kalikmanov,
  • M. Nabuurs,
  • D. Reynaerts

DOI
https://doi.org/10.1103/PhysRevResearch.3.043041
Journal volume & issue
Vol. 3, no. 4
p. 043041

Abstract

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The in-gas-jet laser spectroscopy method relies on the production of uniform and low-temperature gas jets to fully resolve the atomic hyperfine structure and efficiently determine fundamental nuclear properties of short-lived isotopes from, e.g., the hardly accessible actinide and transactinide elements. In this article we present the studies devoted to designing, producing, and characterizing the flow properties of a convergent-divergent (de Laval) hypersonic nozzle with a superior performance for laser spectroscopy applications. A novel flow mapping technique, based on resonance ionization spectroscopy (RIS), has been employed to characterize the local flow properties of an argon gas jet formed by this nozzle, revealing a 61.5-mm long, highly collimated atomic jet at a uniform low temperature of 16.6(5) K [Mach 8.11(12)] that will enable laser spectroscopy experiments on heavy-exotic nuclei with an unprecedented spectral resolution and a high efficiency. These results have been compared with those obtained by planar laser induced fluorescence spectroscopy (PLIFS) studies and show a good agreement between the two techniques and a significant improvement in efficiency of the RIS mapping method with respect to PLIFS. The data are compared to state-of-the-art fluid-dynamics calculations that were carried out to obtain the nozzle contour and simulate its performance, as well as to explain the observation of a possible onset of argon nucleation.