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Resonance ionization is a selective mode of ionization that is based upon atomic vibrations as an atom is excited from the ground state. This ionization method is used for the spectroscopic analysis of inorganic, elemental species.[1] Ionization is accomplished by use of a monochromatic tunable laser,[2] which fires a beam of photons at a gas-phase sample (the analyte). An initial photon from this beam is absorbed by one of the sample atoms, exciting one of the atom's electrons to an intermediate excited state. A second photon then ionizes the atom from the intermediate state such that its high energy level causes it to be ejected from its orbital;[3] the result is a positively charged ion, which is then moved into a mass analyzer.[1]
This method of ionizing atoms is analogous to REMPI; the difference being that resonance ionization is used for an atomic (elemental) analyte, whereas REMPI is used for a molecular analyte.[1]
History
[edit]Resonance ionization was first used in a spectroscopy experiment in 1971 in the Institute for Spectroscopy Russian Academy of Sciences; in that experiment, ground state rubidium atoms were ionized using ruby lasers.[4] In 1974, a need for a new spectroscopic method was realized for energy pathways research; this led to the development of resonance ionization spectroscopy, which coupled the resonance ionization source with a mass spectrometer. An experiment was conducted using this instrumentation to measure the quantity of a species of metastable helium atoms in a sample. This was an initial step in resonance ionization becoming more common for atomic analysis in a research setting.[5][6]
Applications
[edit]A major advantage of using resonance ionization lies in the fact that it is highly selective ionization mode; it is able to target a single type of atom amongst a background of many types of atoms, even when said background atoms are much more abundant than the target atoms.[3] In addition, resonance ionization incorporates the high selectivity that is desired in spectroscopy methods with ultrasensitivity. This makes resonance ionization useful when analyzing complex samples with many atomic components.[6]
Due to the high sensitivity and its ability to target a single atom, Resonance Ionization coupled with mass spectrometry is a great technique for cosmochemistry which works with trace amounts of samples[7].
See also
[edit]References
[edit]- ^ a b c Dass, Chhabil (2007). "Chapter 7: Inorganic Mass Spectrometry". In Desiderio, Dominic M.; Nibbering, Nico M. (eds.). Fundamentals of Contemporary Mass Spectrometry (1st ed.). John Wiley & Sons, Inc. pp. 273–275. ISBN 978-0471682295.
- ^ Iwata, Yoshihiro; Ito, Chikara; Harano, Hideki; Iguchi, Tetsuo (7 January 2014). "Performance evaluation of a resonance ionization mass spectrometer developed for the FFDL system of fast reactors". Journal of Nuclear Science and Technology. 51 (4): 465–475. doi:10.1080/00223131.2014.874960.
- ^ a b Beekman, D. W.; Callcott, T. A. (June 1980). "Resonance ionization source for mass spectroscopy" (PDF). International Journal of Mass Spectrometry and Ion Physics. 34 (1–2): 89–97. Retrieved 6 April 2017.
- ^ Jürgen Kluge, H.; Parks, James E.; Wendt, Klaus, eds. (14 April 2000). AIP Conference Proceedings 329: Resonance Ionization Spectroscopy (Seventh International Symposium) (1995 ed.). American Institute of Physics. ISBN 1563964376.
- ^ Hurst, G. S.; Payne, M. G.; Kramer, S. D.; Young, J. P. (1 October 1979). "Resonance ionization spectroscopy and one-atom detection". Reviews of Modern Physics. 51 (4): 767–819. Bibcode:1979RvMP...51..767H. doi:10.1103/RevModPhys.51.767.
- ^ a b Hurst, G. S. (December 1984). Payne, M. G. (ed.). Resonance ionization spectroscopy 1984: invited papers from the Second International Symposium on Resonance Ionization Spectroscopy and its Applications held in Knoxville, Tennessee, USA, on 16-20 April 1984 (1984 ed.). Adam Hilger. ISBN 0854981624.
- ^ "Resonance ionization mass spectrometry for precise measurements of isotope ratios". International Journal of Mass Spectrometry. 288 (1–3): 36–43. 2009-11-01. doi:10.1016/j.ijms.2009.07.013. ISSN 1387-3806.
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