Nuclear charge radii of silicon isotopes

The nuclear charge radius of \(^{32}\)Si was determined using collinear laser spectroscopy. The experimental result was confronted with ab initio nuclear lattice effective field theory, valence-space in-medium similarity renormalization group, and mean field calculations, highlighting important achi...

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Published in:arXiv.org 2023-09
Main Authors: König, Kristian, Berengut, Julian C, Borschevsky, Anastasia, Brinson, Alex, Brown, B Alex, Dockery, Adam, Elhatisari, Serdar, Eliav, Ephraim, Garcia Ruiz, Ronald F, Holt, Jason D, Bai-Shan, Hu, Karthein, Jonas, Lee, Dean, Yuan-Zhuo, Ma, Ulf-G Meißner, Minamisono, Kei, Oleynichenko, Alexander V, Pineda, Skyy, Prosnyak, Sergey D, Reitsma, Marten L, Skripnikov, Leonid V, Vernon, Adam, Zaitsevski, Andrei
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Equations of state
Field theory
Silicon isotopes
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container_title arXiv.org
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creator König, Kristian
Berengut, Julian C
Borschevsky, Anastasia
Brinson, Alex
Brown, B Alex
Dockery, Adam
Elhatisari, Serdar
Eliav, Ephraim
Garcia Ruiz, Ronald F
Holt, Jason D
Bai-Shan, Hu
Karthein, Jonas
Lee, Dean
Yuan-Zhuo, Ma
Ulf-G Meißner
Minamisono, Kei
Oleynichenko, Alexander V
Pineda, Skyy
Prosnyak, Sergey D
Reitsma, Marten L
Skripnikov, Leonid V
Vernon, Adam
Zaitsevski, Andrei
description The nuclear charge radius of \(^{32}\)Si was determined using collinear laser spectroscopy. The experimental result was confronted with ab initio nuclear lattice effective field theory, valence-space in-medium similarity renormalization group, and mean field calculations, highlighting important achievements and challenges of modern many-body methods. The charge radius of \(^{32}\)Si completes the radii of the mirror pair \(^{32}\)Ar - \(^{32}\)Si, whose difference was correlated to the slope \(L\) of the symmetry energy in the nuclear equation of state. Our result suggests \(L \leq 60\)\,MeV, which agrees with complementary observables.
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subjects Equations of state
Field theory
Silicon isotopes
title Nuclear charge radii of silicon isotopes
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