R. Soria Orts scite author profile

The isotope shifts of forbidden transitions in Be- and B-like argon ions are calculated. It is shown that only using the relativistic recoil operator can provide a proper evaluation of the mass isotope shift, which strongly dominates over the field isotope shift for the ions under consideration. Comparing the isotope shifts calculated with the current experimental uncertainties indicates very good perspectives for a first test of the relativistic theory of the recoil effect in middle-Z ions

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High Precision Wavelength Measurements of QED-Sensitive Forbidden Transitions in Highly Charged Argon Ions

Draganić

et al. 2003

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We present the results of an experimental study of magnetic dipole (M1) transitions in highly charged argon ions (Ar X, Ar XI, Ar XIV, Ar XV) in the visible spectral range using an electron beam ion trap. Their wavelengths were determined with, for highly charged ions, unprecedented accuracy up to the sub-ppm level and compared with theoretical calculations. The QED contributions, calculated in this Letter, are found to be 4 orders of magnitude larger than the experimental error and are absolutely indispensable to bring theory and experiment to a good agreement. This method shows great potential for the study of QED effects in relativistic few-electron systems.

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Relativistic Electron Correlation, Quantum Electrodynamics, and the Lifetime of the1s22s22p P3/2o
Lapierre
¹
,
López‐Urrutia
²
,
Braun
³

et al. 2005
Phys. Rev. Lett.
87
4
58
1
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The lifetime of the Ar13+ 1s(2)2s(2)2p2p0(3/2) metastable level was determined at the Heidelberg Electron Beam Ion Trap to be 9.573(4)(5). The accuracy level of one per thousand makes this measurement sensitive to quantum electrodynamic effects like the electron anomalous magnetic moment (EAMM) and to relativistic electron-electron correlation effects like the frequency-dependent Breit interaction. Theoretical predictions, adjusted for the EAMM, cluster about a lifetime that is approximately shorter than our experimental result.

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Lifetime measurement of the Ar XIV1s22s22pP3∕2o2

et al. 2006

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State-Selective Quantum Interference Observed in the Recombination of Highly ChargedHg75+⋯78+Mercury Ions in an Electron Beam Ion Trap

et al. 2005

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We present experimental data on the state-selective quantum interference between different pathways of photorecombination, namely, radiative and dielectronic recombination, in the KLL resonances of highly charged mercury ions. The interference, observed for well resolved electronic states in the Heidelberg electron beam ion trap, manifests itself in the asymmetry of line shapes, characterized by "Fano factors," which have been determined with unprecedented precision, as well as their excitation energies, for several strong dielectronic resonances.

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R. Soria Orts

Relativistic calculations of isotope shifts in highly charged ions

High Precision Wavelength Measurements of QED-Sensitive Forbidden Transitions in Highly Charged Argon Ions

Relativistic Electron Correlation, Quantum Electrodynamics, and the Lifetime of the1s22s22p P3/2o
Lapierre
¹
,
López‐Urrutia
²
,
Braun
³

et al. 2005
Phys. Rev. Lett.
87
4
58
1
View full text Add to dashboard Cite

Lifetime measurement of the Ar XIV1s22s22pP3∕2o2

State-Selective Quantum Interference Observed in the Recombination of Highly ChargedHg75+⋯78+Mercury Ions in an Electron Beam Ion Trap

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R. Soria Orts

Relativistic calculations of isotope shifts in highly charged ions

High Precision Wavelength Measurements of QED-Sensitive Forbidden Transitions in Highly Charged Argon Ions

Relativistic Electron Correlation, Quantum Electrodynamics, and the Lifetime of the1s22s22p P3/2oLapierre1, López‐Urrutia2, Braun3 et al. 2005Phys. Rev. Lett.874581View full textAdd to dashboardCite

Lifetime measurement of the Ar XIV1s22s22pP3∕2o2

State-Selective Quantum Interference Observed in the Recombination of Highly ChargedHg75+⋯78+Mercury Ions in an Electron Beam Ion Trap

Contact Info

Product

Resources

About

Relativistic Electron Correlation, Quantum Electrodynamics, and the Lifetime of the1s22s22p P3/2o
Lapierre
¹
,
López‐Urrutia
²
,
Braun
³

et al. 2005
Phys. Rev. Lett.
87
4
58
1
View full text Add to dashboard Cite