Measurement and microscopic description of odd-even staggering of charge radii of exotic copper isotopes

6533b7d3fe1ef96bd1260243

RESEARCH PRODUCT

Measurement and microscopic description of odd-even staggering of charge radii of exotic copper isotopes

T. Miyagi Mark Bissell Klaus Wendt Shane Wilkins Shane Wilkins Á. Koszorús C. L. Binnersley Kara Marie Lynch A. R. Vernon A. R. Vernon Paul-gerhard Reinhard Jason D. Holt Jason D. Holt J. Billowes R. P. De Groote R. P. De Groote T. Day Goodacre T. Day Goodacre G. J. Farooq-smith Sebastian Rothe Sebastian Rothe D. V. Fedorov Thomas Elias Cocolios Witold Nazarewicz R. F. Garcia Ruiz R. F. Garcia Ruiz R. F. Garcia Ruiz Gerda Neyens Gerda Neyens Ziye Xu Kieran Flanagan H. H. Stroke S. Franchoo Xiaofei Yang Xiaofei Yang W. Gins W. Gins

subject

Nuclear Theory nucl-th [PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th]Astrophysics::High Energy Astrophysical Phenomena Nuclear Theory General Physics and Astronomy FOS: Physical sciences kupari [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]nucl-ex 01 natural sciences 7. Clean energy Effective nuclear charge Nuclear physics Nuclear Theory (nucl-th)0103 physical sciences experimental nuclear physics Neutron Nuclear Physics - Experiment Nuclear Experiment (nucl-ex)010306 general physics Nuclear Experiment Nuclear Experiment Physics Mass number isotoopit Isotope 010308 nuclear & particles physics Nuclear matter 13. Climate action Neutron number Nuclear Physics - Theory theoretical nuclear physics Atomic number ydinfysiikka Nuclear density

description

Isotopes with an odd number of neutrons are usually slightly smaller in size than their even-neutron neighbours. In charge radii of short-lived copper isotopes, a reduction of this effect is observed when the neutron number approaches fifty. The mesoscopic nature of the atomic nucleus gives rise to a wide array of macroscopic and microscopic phenomena. The size of the nucleus is a window into this duality: while the charge radii globally scale as $A^{1/3}$, their evolution across isotopic chains reveals unanticipated structural phenomena [1-3]. The most ubiquitous of these is perhaps the Odd-Even Staggering (OES) [4]: isotopes with an odd number of neutrons are usually smaller in size than the trend of their even-neutron neighbours suggests. This OES effect varies with the number of protons and neutrons and poses a significant challenge for nuclear theory [5-7]. Here, we examine this problem with new measurements of the charge radii of short-lived copper isotopes up to the very exotic $^{78}$Cu $(Z=29, N=49)$, produced at only 20 ions/s, using the highly-sensitive Collinear Resonance Ionisation Spectroscopy (CRIS) method at ISOLDE-CERN. Due to the presence of a single proton outside of the closed Z=28 shell, these measurements provide crucial insights into the single-particle proton structure and how this affects the charge radii. We observe an unexpected reduction in the OES for isotopes approaching the $N=50$ shell gap. To describe the data, we applied models based on nuclear Density Functional Theory [2,8] (DFT) and ab-initio Valence-Space In-Medium Similarity Renormalization Group (VS-IMSRG) theory [9,10]. Through these comparisons, we demonstrate a relation between the global behavior of charge radii and the saturation density of nuclear matter, and show that the local charge radii variations, which reflect the many-body polarization effects due to the odd neutron, naturally emerge from the VS-IMSRG calculations.

year	journal	country	edition	language
2020-04-13

https://hal.archives-ouvertes.fr/hal-02431539