Author
Listed:
- J. Biesheuvel
(LaserLaB, VU University)
- J.-Ph. Karr
(Laboratoire Kastler Brossel, UPMC-Sorbonne Universités, CNRS, ENS-PSL Research University, Collège de France
Université d’Evry Val d’Essonne, Boulevard François Mitterrand)
- L. Hilico
(Laboratoire Kastler Brossel, UPMC-Sorbonne Universités, CNRS, ENS-PSL Research University, Collège de France
Université d’Evry Val d’Essonne, Boulevard François Mitterrand)
- K. S. E. Eikema
(LaserLaB, VU University)
- W. Ubachs
(LaserLaB, VU University)
- J. C. J. Koelemeij
(LaserLaB, VU University)
Abstract
The simplest molecules in nature, molecular hydrogen ions in the form of H2+ and HD+, provide an important benchmark system for tests of quantum electrodynamics in complex forms of matter. Here, we report on such a test based on a frequency measurement of a vibrational overtone transition in HD+ by laser spectroscopy. We find that the theoretical and experimental frequencies are equal to within 0.6(1.1) parts per billion, which represents the most stringent test of molecular theory so far. Our measurement not only confirms the validity of high-order quantum electrodynamics in molecules, but also enables the long predicted determination of the proton-to-electron mass ratio from a molecular system, as well as improved constraints on hypothetical fifth forces and compactified higher dimensions at the molecular scale. With the perspective of comparisons between theory and experiment at the 0.01 part-per-billion level, our work demonstrates the potential of molecular hydrogen ions as a probe of fundamental physical constants and laws.
Suggested Citation
J. Biesheuvel & J.-Ph. Karr & L. Hilico & K. S. E. Eikema & W. Ubachs & J. C. J. Koelemeij, 2016.
"Probing QED and fundamental constants through laser spectroscopy of vibrational transitions in HD+,"
Nature Communications, Nature, vol. 7(1), pages 1-7, April.
Handle:
RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms10385
DOI: 10.1038/ncomms10385
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