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Literature DB >> 36261531

Measured proton electromagnetic structure deviates from theoretical predictions.

R Li¹, N Sparveris², H Atac¹, M K Jones³, M Paolone⁴, Z Akbar⁵, C Ayerbe Gayoso⁶, V Berdnikov⁷, D Biswas^8,9, M Boer^1,9, A Camsonne³, J-P Chen³, M Diefenthaler³, B Duran¹, D Dutta¹⁰, D Gaskell³, O Hansen³, F Hauenstein¹¹, N Heinrich¹², W Henry³, T Horn⁷, G M Huber¹², S Jia¹, S Joosten¹³, A Karki¹⁰, S J D Kay¹², V Kumar¹², X Li¹⁴, W B Li⁶, A H Liyanage⁸, S Malace³, P Markowitz¹⁵, M McCaughan³, Z-E Meziani¹³, H Mkrtchyan¹⁶, C Morean¹⁷, M Muhoza⁷, A Narayan¹⁸, B Pasquini^19,20, M Rehfuss¹, B Sawatzky³, G R Smith³, A Smith¹⁴, R Trotta⁷, C Yero¹⁵, X Zheng⁵, J Zhou¹⁴.

Abstract

The visible world is founded on the proton, the only composite building block of matter that is stable in nature. Consequently, understanding the formation of matter relies on explaining the dynamics and the properties of the proton's bound state. A fundamental property of the proton involves the response of the system to an external electromagnetic field. It is characterized by the electromagnetic polarizabilities1 that describe how easily the charge and magnetization distributions inside the system are distorted by the electromagnetic field. Moreover, the generalized polarizabilities2 map out the resulting deformation of the densities in a proton subject to an electromagnetic field. They disclose essential information about the underlying system dynamics and provide a key for decoding the proton structure in terms of the theory of the strong interaction that binds its elementary quark and gluon constituents. Of particular interest is a puzzle in the electric generalized polarizability of the proton that remains unresolved for two decades2. Here we report measurements of the proton's electromagnetic generalized polarizabilities at low four-momentum transfer squared. We show evidence of an anomaly to the behaviour of the proton's electric generalized polarizability that contradicts the predictions of nuclear theory and derive its signature in the spatial distribution of the induced polarization in the proton. The reported measurements suggest the presence of a new, not-yet-understood dynamical mechanism in the proton and present notable challenges to the nuclear theory.

Entities: Chemical

Year: 2022 PMID： 36261531 DOI： 10.1038/s41586-022-05248-1

Source DB: PubMed Journal: Nature ISSN： 0028-0836 Impact factor: 69.504

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References

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