Precision test of bound-state QED at intermediate Z with kaonic neon

Key Points

Transition energy for the 7–6 line is calculated as 9450.28 eV, closely matching 9450.23 eV from recent measurements.
The bound-state quantum electrodynamics contribution of 12.66 eV significantly influences the results.
Dirac-Fock calculations offer a detailed approach to determining transition energies in kaonic neon systems.
These findings highlight kaonic atoms as effective platforms for precision tests, enhancing understanding of quantum electrodynamics.

Abstract

We report Dirac-Fock calculations of transition energies for kaonic neon. For the most intense line, the 7–6 transition, the calculated energy is 9450.28 eV, which includes a bound-state quantum electrodynamics (BSQED) contribution of 12.66 eV. This is in excellent agreement with the recent SIDDHARTHA-2 measurement at DA Φ NE of 9450.23 ± 0.37 ( stat . ) ± 1.50 ( syst . ) eV . With the quantum electrodynamics contribution far exceeding experimental uncertainty, these results establish kaonic atoms as sensitive platforms for precision tests of BSQED in intermediate-Z systems.

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Anonymous et al. (Fri,) studied this question.

synapsesocial.com/papers/69a75e92c6e9836116a2951c https://doi.org/https://doi.org/10.1103/rry5-tdqb

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