High-Precision Determination of Oxygen K α Transition Energy Excludes Incongruent Motion of Interstellar Oxygen

High-Precision Determination of Oxygen K α Transition Energy Excludes Incongruent Motion of Interstellar Oxygen

We demonstrate a widely applicable technique to absolutely calibrate the energy scale of x-ray spectra with experimentally well-known and accurately calculable transitions of highly charged ions, allowing us to measure the K -shell Rydberg spectrum of molecular O2 with 8 meV uncertainty. We reveal a...

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Veröffentlicht in:Physical review letters 2020-12, Vol.125 (24), p.1, Article 243001
Hauptverfasser: Leutenegger, M. A., Kühn, S., Micke, P., Steinbrügge, R., Stierhof, J., Shah, C., Hell, N., Bissinger, M., Hirsch, M., Ballhausen, R., Lang, M., Gräfe, C., Wipf, S., Cumbee, R., Betancourt-Martinez, G. L., Park, S., Yerokhin, V. A., Surzhykov, A., Stolte, W. C., Niskanen, J., Chung, M., Porter, F. S., Stöhlker, T., Pfeifer, T., Wilms, J., Brown, G. V., Crespo López-Urrutia, J. R., Bernitt, S.
Format: Artikel
Sprache:eng
Schlagworte:
Atomic oxygen
Spectrum analysis
Uncertainty
X ray absorption
X ray spectra
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Zusammenfassung:We demonstrate a widely applicable technique to absolutely calibrate the energy scale of x-ray spectra with experimentally well-known and accurately calculable transitions of highly charged ions, allowing us to measure the K -shell Rydberg spectrum of molecular O2 with 8 meV uncertainty. We reveal a systematic ~450 meV shift from previous literature values, and settle an extraordinary discrepancy between astrophysical and laboratory measurements of neutral atomic oxygen, the latter being calibrated against the aforementioned O2 literature values. Because of the widespread use of such, now deprecated, references, our method impacts on many branches of x-ray absorption spectroscopy. Moreover, it potentially reduces absolute uncertainties there to below the meV level.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.125.243001