Accessing the shape of atomic nuclei with relativistic collisions of isobars

Giuliano Giacalone; Jiangyong Jia; Vittorio Somà

doi:10.1103/PhysRevC.104.L041903

Accessing the shape of atomic nuclei with relativistic collisions of isobars

Giuliano Giacalone
, Jiangyong Jia
, Vittorio Somà

Chemistry

Heidelberg University
Université Paris-Saclay

Research output: Contribution to journal › Article › peer-review

33 Scopus citations

Abstract

Nuclides sharing the same mass number (isobars) are observed ubiquitously along the stability line. While having nearly identical radii, stable isobars can differ in shape, and present different quadrupole deformations. We show that even small differences in these deformations can be probed by relativistic nuclear collisions experiments, where they manifest as deviations from unity in the ratios of elliptic flow coefficients taken between isobaric systems. Collider experiments with isobars represent, thus, a unique means to gain precise knowledge of the geometric shape of atomic nuclei.

Original language	English
Article number	L041903
Journal	Physical Review C
Volume	104
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevC.104.L041903
State	Published - Oct 2021

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title = "Accessing the shape of atomic nuclei with relativistic collisions of isobars",

abstract = "Nuclides sharing the same mass number (isobars) are observed ubiquitously along the stability line. While having nearly identical radii, stable isobars can differ in shape, and present different quadrupole deformations. We show that even small differences in these deformations can be probed by relativistic nuclear collisions experiments, where they manifest as deviations from unity in the ratios of elliptic flow coefficients taken between isobaric systems. Collider experiments with isobars represent, thus, a unique means to gain precise knowledge of the geometric shape of atomic nuclei.",

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AU - Giacalone, Giuliano

AU - Jia, Jiangyong

AU - Somà, Vittorio

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Y1 - 2021/10

N2 - Nuclides sharing the same mass number (isobars) are observed ubiquitously along the stability line. While having nearly identical radii, stable isobars can differ in shape, and present different quadrupole deformations. We show that even small differences in these deformations can be probed by relativistic nuclear collisions experiments, where they manifest as deviations from unity in the ratios of elliptic flow coefficients taken between isobaric systems. Collider experiments with isobars represent, thus, a unique means to gain precise knowledge of the geometric shape of atomic nuclei.

AB - Nuclides sharing the same mass number (isobars) are observed ubiquitously along the stability line. While having nearly identical radii, stable isobars can differ in shape, and present different quadrupole deformations. We show that even small differences in these deformations can be probed by relativistic nuclear collisions experiments, where they manifest as deviations from unity in the ratios of elliptic flow coefficients taken between isobaric systems. Collider experiments with isobars represent, thus, a unique means to gain precise knowledge of the geometric shape of atomic nuclei.

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DO - 10.1103/PhysRevC.104.L041903

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JF - Physical Review C

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Accessing the shape of atomic nuclei with relativistic collisions of isobars

Abstract

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