Many single-color, multiple-photon transitions leading to ionization are observed for lanthanide and actinide elements in experiments using resonance ionization mass spectrometry (RIMS). It is desirable both to identify the energy levels involved in observed transitions and to be able
to predict in advance their location. A computer code, ETRANS, has been written to perform these functions. Examples of both types of operation are given.
Analytical Chemistry Division, Oak Ridge National Laboratory, P.O. Box Y, Oak Ridge, Tennessee 37831-8121
Publication date: August 1, 1988
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The Society publishes the internationally recognized, peer reviewed journal, Applied Spectroscopy, which is available both in print and online. Subscriptions are included with membership or can be purchased by institutional or corporate organizations. Abstracts may be viewed free of charge. Previously published as Bulletin (Society for Applied Spectroscopy)