Abstract
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 ${\mathrm{IP}}_{(\mathrm{Pm})}=45\phantom{\rule{0.16em}{0ex}}020.8(3)\phantom{\rule{4pt}{0ex}}{\mathrm{cm}}^{\ensuremath{-}1} [5.58188(4)\phantom{\rule{0.16em}{0ex}}\mathrm{eV}]$ was derived, which confirms previous expectations of $45\phantom{\rule{0.16em}{0ex}}027(80)$ and $44\phantom{\rule{0.16em}{0ex}}985(140)\phantom{\rule{4pt}{0ex}}{\mathrm{cm}}^{\ensuremath{-}1}$, which were obtained indirectly from lanthanide IP systematics.
Highlights
The year 2019 has been declared the International Year of the Periodic Table of Chemical Elements for the 150th anniversary of Mendeleev’s discovery, which today comprises 118 elements
We have presented an extensive study in the spectrum of neutral promethium
The data cover 126 odd energy levels, 546 even energy levels, and more than 1000 transitions, which add to the knowledge about Pm atomic structure and provide a considerable contribution to its atomic spectra database
Summary
The year 2019 has been declared the International Year of the Periodic Table of Chemical Elements for the 150th anniversary of Mendeleev’s discovery, which today comprises 118 elements. While most stable species are studied thoroughly, for a number of elements, which either have no stable isotopes or are produced only artificially, still today fundamental atomic properties have not been determined with satisfying precision or are entirely missing. These deficits include the ionization potential (IP), i.e., the energy required to remove one electron from the neutral atom. It can be produced via neutron activation in non-carrier-added form [5,6]
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