Experimental ground-state combination differences of CH5

Protonation of methane (CH4), a rather rigid molecule well described by quantum mechanics, produces CH5+, a prototypical floppy molecule that has eluded definitive spectroscopic description. Experimental measurement of high-resolution spectra of pure CH5+ samples poses a formidable challenge. By app...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2015-03, Vol.347 (6228), p.1346-1349
Hauptverfasser: Asvany, Oskar, Yamada, Koichi M. T., Brünken, Sandra, Potapov, Alexey, Schlemmer, Stephan
Format: Artikel
Sprache:eng
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Zusammenfassung:Protonation of methane (CH4), a rather rigid molecule well described by quantum mechanics, produces CH5+, a prototypical floppy molecule that has eluded definitive spectroscopic description. Experimental measurement of high-resolution spectra of pure CH5+ samples poses a formidable challenge. By applying two types of action spectroscopy predicated on photoinduced reaction with CO2 and photoinhibition of helium cluster growth, we obtained low-temperature, high-resolution spectra of mass-selected CH5+. On the basis of the very high accuracy of the line positions, we determined a spectrum of combination differences. Analysis of this spectrum enabled derivation of equally accurate ground state–level schemes of the corresponding nuclear spin isomers of CH5+, as well as tentative quantum number assignment of this enfant terrible of molecular spectroscopy.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.aaa3304