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1. Determination of nuclear matter radii by means of microscopic optical potentials: the case of $^{78}$Kr

Author

Vorabbi, Matteo, Finelli, Paolo, and Giusti, Carlotta

Subjects
Nuclear Theory
Abstract

In this work we use microscopic Nucleon-Nucleus Optical Potentials (OP) to analyze elastic scattering data for the differential cross section of the $^{78}$Kr (p,p) $^{78}$Kr reaction, with the goal of extracting the matter radius and estimating the neutron skin, quantities that are both needed to determine the slope parameter $L$ of the nuclear symmetry energy. Our analysis is performed with the factorized version of the microscopic OP obtained in a previous series of papers within the Watson multiple scattering theory at the first order of the spectator expansion, which is based on the underlying nucleon-nucleon dynamics and is free from phenomenological inputs. Differently from our previous applications, the proton and neutron densities are described with a two-parameter Fermi (2pF) distribution, which makes the extraction of the matter radius easier and allows us to make a meaningful comparison with the original analysis, that was performed with the Glauber model. With standard minimization techniques we performed data analysis and extracted the matter radius and the neutron skin. Our analysis produces a matter radius of $R_m^{{\rm (rms)}} = 4.12$ fm, in good agreement with previous matter radii extracted from $^{76}$Kr and $^{80}$Kr, and a neutron skin of $\Delta R_{np} \simeq - 0.1$ fm, compatible with a previous analysis. Our factorized microscopic OP, supplied with 2pF densities, is a valuable tool to perform the analysis of the experimental differential cross section and extract information such as matter radius and neutron skin. Without any free parameters it provides a reasonably good description of the experimental differential cross section for scattering angles up to $\approx$ 40 degrees. Compared to the Glauber model our OP can be applied to a wider range of scattering angles and allows one to probe the nuclear systems in a more internal region.

Published
2024

2. Microscopic Optical Potentials from Chiral Forces and Ab Initio Nuclear Densities

Author

Giusti, Carlotta, Vorabbi, Matteo, and Finelli, Paolo

Subjects
Nuclear Theory
Abstract

We derived microscopic optical potentials (OPs) for elastic nucleon-nucleus scattering within the framework of chiral effective field theories at the first-order term of the spectator expansion of the Watson multiple-scattering theory and adopting the impulse approximation. Our OPs are derived by folding ab initio nuclear densities with a nucleon-nucleon NN t matrix computed with a consistent chiral interaction. The results of our OPs are in good agreement with the experimental data. Recent achievements of our work are reviewed in this contribution., Comment: 10 pages 4 figures Proceedings of the 40th International Workshop in Nuclear Theory, IWNT-202, Rila Mountains, Bulgaria3

Published
2023

3. Microscopic optical potentials for medium-mass isotopes derived at the first order of the Watson multiple scattering theory

Author

Vorabbi, Matteo, Barbieri, Carlo, Somà, Vittorio, Finelli, Paolo, and Giusti, Carlotta

Subjects
Nuclear Theory, Nuclear Experiment
Abstract

We perform a first-principle calculation of optical potentials for nucleon elastic scattering off medium-mass isotopes. Fully based on a saturating chiral Hamiltonian, the optical potentials are derived by folding nuclear density distributions computed with ab initio self-consistent Green's function theory with a nucleon-nucleon $t$ matrix computed with a consistent chiral interaction. The dependence on the folding interaction as well as the convergence of the target densities are investigated. Numerical results are presented and discussed for differential cross sections and analyzing powers, with focus on elastic proton scattering off Calcium and Nickel isotopes. Our optical potentials generally show a remarkable agreement with the available experimental data for laboratory energies in the range 65-200 MeV. We study the evolution of the scattering observables with increasing proton-neutron asymmetry by computing theoretical predictions of the cross section and analyzing power over the Calcium and Nickel isotopic chains.

Published
2023

5. Incorporating the weak mixing angle dependence to reconcile the neutron skin measurement on 208Pb by PREX-II

Author

Corona, Mattia Atzori, Cadeddu, Matteo, Cargioli, Nicola, Finelli, Paolo, and Vorabbi, Matteo

Subjects
High Energy Physics - Phenomenology, Nuclear Experiment, Nuclear Theory
Abstract

The only available electroweak measurement of the $^{208}\mathrm{Pb}$ neutron skin, $\Delta R_{\rm{np}}$, performed by the PREX-II Collaboration through polarized electron-lead scattering, shows a mild tension with respect to both the theoretical nuclear-model predictions and a host of measurements. However, the dependence on the weak mixing angle should be incorporated in the calculation, since its low-energy value is experimentally poorly known. We first repeat the PREX-II analysis confirming their measurement by fixing the weak mixing angle to its standard model value. Then, we show the explicit dependence of the PREX-II measurement on the weak mixing angle, obtaining that it is fully degenerate with the neutron skin. To break this degeneracy, we exploit the weak mixing angle measurement from atomic parity violation on lead, obtaining a slightly thinner neutron skin but with about doubled uncertainties, possibly easing the PREX tension. Relying on the theoretical prediction, $\Delta R_{\rm{np}}^{\mathrm{th}}\approx 0.13-0.19\ \mathrm{fm}$, and using it as a prior in the fit, we find a weak mixing angle value about $1.2\sigma$ smaller than the standard model prediction. Thus, we suggest a possible solution of the PREX-II tension by showing that, considering its underlying dependence on the weak mixing angle, the PREX-II neutron skin determination could be in agreement with the other available measurements and predictions if the weak mixing angle at the proper energy scale is smaller than the standard model prediction., Comment: 5 pages, 4 figures. Matches published version

Published
2021
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6. Elastic proton scattering off non-zero spin nuclei

Author

Vorabbi, Matteo, Gennari, Michael, Finelli, Paolo, Giusti, Carlotta, Navrátil, Petr, and Machleidt, Ruprecht

Subjects
Nuclear Theory
Abstract

In recent years, we constructed a microscopic optical potential (OP) for elastic nucleon-nucleus ($NA$) scattering using modern approaches based on chiral theories for the nucleon-nucleon ($NN$) interaction. The OP was derived at first order of the spectator expansion in Watson multiple scattering theory and its final expression was a folding integral between the $NN$ $t$ matrix and the nuclear density of the target. Two- and three-body forces are consistently included both in the target and in the projectile description. The purpose of this work is to apply our microscopic OP to nuclei characterized by a ground state of spin-parity quantum numbers $J^\pi \ne 0^+$. We extended our formalism to include the spin of the target nucleus. The full amplitudes of the $NN$ reaction matrix are retained in the calculations starting from two- and three-body chiral forces. We show a remarkable agreement with experimental data for the available observables and, simultaneously, provide reliable estimates for the theoretical uncertainties. This work paves the way toward a full microscopic approach to inelastic $NA$ scattering, showing that the derivation of optical potentials between states with $J^\pi \ne 0^+$ is completely under control.

Published
2021
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7. Impact of Three-Body Forces on Elastic Nucleon-Nucleus Scattering Observables

Author

Vorabbi, Matteo, Gennari, Michael, Finelli, Paolo, Giusti, Carlotta, Navrátil, Peter, and Machleidt, Ruprecht

Subjects
Nuclear Theory, Nuclear Experiment
Abstract

In a previous series of papers we investigated the domain of applicability of chiral potentials to the construction of a microscopic optical potential (OP) for elastic nucleon-nucleus scattering. The final expression of the OP was a folding integral between the nucleon-nucleon ($NN$) $t$ matrix and the nuclear density of the target. In these calculations $NN$ and three-nucleon ($3N$) chiral interactions were used for the target density and only the $NN$ interaction for the $NN$ $t$ matrix. The purpose of this work is to achieve another step towards the calculation of a more consistent OP introducing the $3N$ force also in the dynamic part of the OP. In the present work this is approximated with a density dependent $NN$ interaction obtained after the averaging over the Fermi sphere. In practice, in our model the $3N$ force acts as a medium correction of the bare $NN$ interaction used to calculate the $NN$ $t$ matrix. Even if the $3N$ force is treated in an approximate way, this method naturally extends our previous model of the OP and allows a direct comparison of our present and previous results. We consider as case studies the elastic scattering of nucleons off $^{12}$C and $^{16}$O. We present results for the differential cross section and the spin observables for different values of the projectile energy. From the comparison with the experimental data and with the results of our previous model we assess the importance of the $3N$ interaction in the dynamic part of the OP. Our analysis indicates that the contribution of the $3N$ force in the $t$ matrix is small for the differential cross section and it is sizable for the spin observables, in particular, for the analyzing power. A chiral expansion order-by-order analysis of the scattering observables confirms the convergence of our results at the next-to-next-to-next-to-leading-order, as already established in our previous work.

Published
2020
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8. Temperature evolution of the nuclear shell structure and the dynamical nucleon effective mass

Author

Wibowo, Herlik, Litvinova, Elena, Zhang, Yinu, and Finelli, Paolo

Subjects
Nuclear Theory, Nuclear Experiment
Abstract

We study the fermionic Matsubara Green functions in medium-mass nuclei at finite temperature. The single-fermion Dyson equation with the dynamical kernel of the particle-vibration-coupling (PVC) origin is formulated and solved in the basis of Dirac spinors, which minimize the grand canonical potential with the meson-nucleon covariant energy density functional. The PVC correlations beyond mean field are taken into account in the leading approximation for the energy-dependent self-energy, and the full solution of the finite-temperature Dyson equation is obtained for the fermionic propagators. Within this approach, we investigate the fragmentation of the single-particle states and its evolution with temperature for the nuclear systems $^{56,68}$Ni and $^{56}$Fe relevant for the core-collapse supernova. The energy-dependent, or dynamical, nucleon effective mass is extracted from the PVC self-energy at various temperatures., Comment: Article: 10 pages, 11 figures

Published
2020
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9. Elastic Antiproton-Nucleus Scattering from Chiral Forces

Author

Vorabbi, Matteo, Gennari, Michael, Finelli, Paolo, Giusti, Carlotta, and Navrátil, Petr

Subjects
Nuclear Theory, Nuclear Experiment
Abstract

Elastic scattering of antiprotons off $^4$He, $^{12}$C, and $^{16,18}$O is described for the first time with a totally microscopic approach based on the calculation of an optical potential (OP) describing the antiproton-target interaction. The OP is derived using the recent antiproton-nucleon ($\bar{p}N$) chiral interaction to calculate the $\bar{p}N$ $t$ matrix, while the target densities are computed with the ab initio no-core shell model using chiral interactions as well. Our results are in a good agreement with the existing experimental data and the results computed at different chiral orders of the $\bar{p}N$ interaction display the convergence pattern expected from the theory.

Published
2019
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10. Proton-Nucleus Elastic Scattering: Comparison between Phenomenological and Microscopic Optical Potentials

Author

Vorabbi, Matteo, Finelli, Paolo, and Giusti, Carlotta

Subjects
Nuclear Theory
Abstract

Elastic scattering is a very important process to understand nuclear interactions in finite nuclei. Despite decades of efforts, the goal of reaching a coherent description of this physical process in terms of microscopic forces is still far from being completed. In previous papers (Phys. Rev. C93, 034619 (2016), Phys. Rev. C96, 044001 (2017)) we derived a nonrelativistic theoretical optical potential from nucleon-nucleon chiral potentials at fourth (N3LO) and fifth order (N4LO). We checked convergence patterns and established theoretical error bands. With this work we study the performances of our optical potential in comparison with those of a successful nonrelativistic phenomenological optical potential in the description of elastic proton scattering data on several isotopic chains at energies around and above 200 MeV. We use the same framework and the same approximations of our previous papers, where the nonrelativistic optical potential is derived at the first-order term within the spectator expansion of the multiple scattering theory and adopting the impulse approximation and the optimum factorization approximation. The cross sections and analyzing powers for elastic proton scattering off calcium, nickel, tin, and lead isotopes are presented for several incident proton energies, exploring the range $156 \le E \le 333$ MeV, where experimental data are available. In addition, we provide theoretical predictions for Ni56 at 400 MeV, which is of interest for the future experiments at EXL. Our results indicate that microscopic optical potentials derived from nucleon-nucleon chiral potentials at N4LO can provide reliable predictions for the cross section and the analyzing power both of stable and exotic nuclei, even at energies where the reliability of the chiral expansion starts to be questionable., Comment: 26 pages, 10 figures, submitted to PRC

Published
2018
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12. A Deep Learning Approach for Road Damage Classification

Author

Ciaparrone, Gioele, Serra, Angela, Covito, Vito, Finelli, Paolo, Scarpato, Carlo Alberto, Tagliaferri, Roberto, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Ruediger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Liang, Qilian, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Möller, Sebastian, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zhang, Junjie James, Series Editor, Park, James J., editor, Loia, Vincenzo, editor, Choo, Kim-Kwang Raymond, editor, and Yi, Gangman, editor

Published
2019
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13. Neutron density distribution and neutron skin thickness of $^{208}$Pb

Author

Meucci, Andrea, Vorabbi, Matteo, Giusti, Carlotta, and Finelli, Paolo

Subjects
Nuclear Theory, Nuclear Experiment
Abstract

We present and discuss numerical predictions for the neutron density distribution of $^{208}$Pb using various non-relativistic and relativistic mean-field models for the nuclear structure. Our results are compared with the very recent pion photoproduction data from Mainz. The parity-violating asymmetry parameter for elastic electron scattering at the kinematics of the PREX experiment at JLab and the neutron skin thickness are compared with the available data. We consider also the dependence between the neutron skin and the parameters of the expansion of the symmetry energy., Comment: 9 pages, 6 figures, latest MAMI data used

Published
2014
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14. Elastic and quasi-elastic electron scattering on the N = 14, 20, and 28 isotonic chains

Author

Meucci, Andrea, Vorabbi, Matteo, Giusti, Carlotta, Pacati, Franco Davide, and Finelli, Paolo

Subjects
Nuclear Theory, Nuclear Experiment
Abstract

We present theoretical predictions for electron scattering on the N = 14, 20, and 28 isotonic chains from proton-deficient to proton-rich nuclei. The calculations are performed within the framework of the distorted-wave Born approximation and the proton and neutron density distributions are evaluated adopting a Relativistic Hartree-Bogoliubov (RHB) approach with a density dependent meson-exchange interaction. We present results for the elastic and quasi-elastic cross sections and for the parity-violating asymmetry parameter. Owing to the correlations between the evolution of the electric charge form factors along each chain with the underlying proton shell structure of the isotones, elastic electron scattering experiments on isotones can provide useful informations about the occupation and filling of the single-particle levels of protons., Comment: 18 pages, 10 figures. arXiv admin note: substantial text overlap with arXiv:1302.3390

Published
2013
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15. Elastic and quasi-elastic electron scattering off nuclei with neutron excess

Author

Meucci, Andrea, Vorabbi, Matteo, Finelli, Paolo, Giusti, Carlotta, and Pacati, Franco Davide

Subjects
Nuclear Theory, Nuclear Experiment
Abstract

We present theoretical predictions for electron scattering on oxygen and calcium isotopic chains. The calculations are done within the framework of the distorted-wave Born approximation and the proton and neutron density distributions are evaluated adopting a relativistic Dirac-Hartree model. We present results for the elastic and quasi-elastic cross sections and for the parity-violating asymmetry. As a first step, the results of the models are tested in comparison with some of the data available for elastic and quasi-elastic scattering on 16O and 40Ca nuclei. Then, the evolution of some nuclear properties is investigated as a function of the neutron number. We also present a comparison with the parity-violating asymmetry parameter obtained by the PREX Collaboration on 208Pb and give a prediction for the future experiment CREX on 48Ca., Comment: 37 pages, 17 figures. version accepted for publication in the Physical Review C. arXiv admin note: text overlap with arXiv:0809.4124 by other authors

Published
2013
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16. Nuclear Pairing from Chiral Pion-Nucleon Dynamics: Applications to Finite Nuclei

Author

Finelli, Paolo, Niksic, Tamara, and Vretenar, Dario

Subjects
Nuclear Theory
Abstract

The 1S0 pairing gap in isospin-symmetric nuclear matter and finite nuclei is investigated using the chiral nucleon-nucleon potential at the N3LO order in the two-body sector, and the N2LO order in the three-body sector. To include realistic nuclear forces in RHB (Relativistic Hartree Bolgoliubov) calculations we rely on a separable form of the pairing interaction adjusted to the bare nuclear force. The separable pairing force is applied to the analysis of pairing properties for several isotopic and isotonic chains of spherical nuclei., Comment: 13 pages, 3 figures, submitted to PRC

Published
2011
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17. Nuclear density functional constrained by low-energy QCD

Author

Finelli, Paolo, Kaiser, Norbert, Vretenar, Dario, and Weise, Wolfram

Subjects
Nuclear Theory
Abstract

We have developed a relativistic point-coupling model of nuclear many-body dynamics constrained by the low-energy sector of QCD. The effective Lagrangian is characterized by density-dependent coupling strengths determined by chiral one- and two-pion exchange (with single and double delta isobar excitations) and by large isoscalar background fields that arise through changes of the quark condensate and the quark density at finite baryon density. The model has been tested in the analysis of nuclear ground-state properties along different isotope chains of medium and heavy nuclei. The agreement with experimental data is comparable with purely phenomenological predictions. The built-in QCD constraints and the explicit treatment of pion exchange restrict the freedom in adjusting parameters and functional forms of density-dependent couplings. It is shown that chiral pionic fluctuations play an important role for nuclear binding and saturation mechanism, whereas background fields of about equal magnitude and opposite sign generate the effective spin-orbit potential in nuclei., Comment: ws-procs9x6.cls, 8 pgs, Talk presented at "X Convegno su Problemi di Fisica Nucleare Teorica", Cortona (AR), 6-9 october 2004

Published
2004
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20. Optical Potentials: Microscopic vs. Phenomenological Approaches

Author

Finelli Paolo, Vorabbi Matteo, and Giusti Carlotta

Subjects
Physics, QC1-999
Abstract

In this work we study the performances of our microscopic optical potential [1, 2], derived from nucleon-nucleon chiral potentials at fifth order (N4LO), in comparison with those of a successful non-relativistic phenomenological optical potential in the description of elastic proton scattering data on tin and lead isotopes at energies around and above 200 MeV. Our results indicate that microscopic optical potentials derived from nucleon-nucleon chiral potentials at N4LO can provide reliable predictions for observables of stable and exotic nuclei, even at energies where the robustness of the chiral expansion starts to be questionable.

Published
2019
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27. Microscopic optical potential derived from N N chiral potentials

Author

Giusti, Carlotta, Vorabbi, Matteo, and Finelli, Paolo

Subjects
Nuclear Physics - Theory, Physics::Optics
Abstract

A microscopic optical potential is derived from N N chiral potentials at fourth (N$^{3}$LO) and fifth (N$^{4}$LO) order, with the purpose to check the convergence and to assess the theoretical errors associated with the truncation of the chiral expansion in the construction of an optical potential. The numerical predictions of our optical potential are compared with those of a successful phenomeno- logical optical potential and with available empirical data for elastic proton scattering on different isotopic chains and for incident proton energies in the range 156 ≤ E ≤ 333 MeV.

Published
2019

28. Optical Potentials: Microscopic vs. Phenomenological Approaches.

Author

de Angelis, G., Corradi, L., Finelli, Paolo, Vorabbi, Matteo, and Giusti, Carlotta

Subjects
NUCLEON-nucleon interactions, PROTON scattering, NUCLEAR optical potentials, DATA analysis, PREDICTION models
Abstract

In this work we study the performances of our microscopic optical potential [1, 2], derived from nucleon-nucleon chiral potentials at fifth order (N4LO), in comparison with those of a successful non-relativistic phenomenological optical potential in the description of elastic proton scattering data on tin and lead isotopes at energies around and above 200 MeV. Our results indicate that microscopic optical potentials derived from nucleon-nucleon chiral potentials at N4LO can provide reliable predictions for observables of stable and exotic nuclei, even at energies where the robustness of the chiral expansion starts to be questionable. [ABSTRACT FROM AUTHOR]

Published
2019
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37. Applications of In-medium SU(3) Chiral Dynamics: Hypernuclear struture

Author

FINELLI, PAOLO and P. Finelli

Subjects
Nuclear Theory, Realistic forces, Nuclear pairing, Nuclear Experiment
Abstract

In the last years, a systematic study of $Lambda$-hypernuclei has been initiated through a novel approach able to include contributions from the relevant degrees of freedom at low energies ($pi$ and kaon exchange interactions) into a (relativistic) energy density functional. In this contribution we will review the basic features of this approach and, in particular, we will report on some recent improvements showing calculations for $^{16}_Lambda O$.

Published
2009

42. From a relativistic mean-field approach towards a nuclear structure description constrained by QCD and chiral symmetry

Author

Finelli, Paolo

Subjects
Nuclear Theory, Nuclear structure, Relativistic mean-field model, density-dependent meson-nucleon couplings, Chiral perturbation theory, QCD sum rules, Nuclear Experiment
Abstract

The relativistic Hartree-Bogoliubov (RHB) model is extended to include density dependent meson-nucleon couplings. The effective Lagrangian is characterized by a phenomenological density dependence for the $\sigma$, $\omega$ and $\rho$ meson-nucleon vertex functions, adjusted to properties of nuclear matter and finite nuclei. Pairing correlations are described by the pairing part of the finite range Gogny interaction. The new density-dependent effective interaction DD-ME1 is tested in the analysis of the equations of state for symmetric and asymmetric nuclear matter, and of ground-state properties of the Sn and Pb isotopic chains. Results of self-consistent RHB calculations are compared with experimental data, and with results previously obtained in the RHB model with non-linear self-interactions, as well as in the density dependent relativistic hadron field (DDRH) model. Parity-violating elastic electron scattering on Pb and Sn nuclei is calculated using a relativistic optical model with inclusion of Coulomb distortion effects, and the resulting asymmetry parameters are related to the neutron ground-state density distributions. A microscopic relativistic point-coupling model of nuclear many-body dynamics is derived, constrained by in-medium QCD sum rules and chiral symmetry. The effective Lagrangian is characterized by density dependent coupling strengths, determined by chiral one- and two-pion exchange and by QCD sum rule constraints for the large isoscalar nucleon self-energies that arise through changes of the quark condensate and the quark density at finite baryon density. This approach is tested in the analysis of the equations of state for symmetric and asymmetric nuclear matter, and of bulk and single-nucleon properties of finite nuclei. In comparison with purely phenomenological mean-field approaches, the built-in QCD constraints and the explicit treatment of pion exchange drastically reduce the freedom in adjusting parameters and functional forms of density dependent couplings. It is shown that nuclear binding and saturation are almost completely generated by chiral (two-pion exchange) fluctuations, whereas strong scalar and vector fields of about equal magnitude and opposite sign, induced by changes of the QCD vacuum in the presence of baryonic matter, generate the large effective spin-orbit potential in finite nuclei. The results achieved are at a level of accuracy comparable to the best phenomenological relativistic mean-field calculations

Published
2003

50. Nuclear pairing from bare interaction: Two and three-body chiral forces.

Author

Finelli, Paolo

Subjects
*THREE-body problem, *CHIRALITY of nuclear particles, *NUCLEAR forces (Physics), *NUCLEAR physics, *ISOBARIC spin, *NUCLEAR matter, *SYMMETRY (Physics)
Abstract

In a recent paper [1] the 1S0 pairing gap in isospin-symmetric nuclear matter and finite nuclei has been investigated starting from the chiral nucleon-nucleon potential at the N3LO order in the two-body sector and the N2LO order in the three-body sector. To include realistic nuclear forces in RHB (Relativistic Hartree Bolgoliubov) calculations we relied on a separable representation of the pairing interaction. In this paper we would like to show recent results concerning isotonic chains with N = 28,50,82. [ABSTRACT FROM AUTHOR]

Published
2012
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