Your search keyword '"Fortunato, L."' showing total 33 results

1. Three-$\alpha$ configurations of the second $J^\pi=2^+$ state in $^{12}$C

Author

Moriya, H., Horiuchi, W., Casal, J., and Fortunato, L.

Subjects

Nuclear Theory

Abstract

We investigate geometric configurations of $\alpha$ ($^4$He nucleus) clusters in the second $J^\pi=2^+$ state of $^{12}$C, which has been discussed as a rotational band member of the second $0^+$ state, the Hoyle state. The ground and excited $0^+$ and $2^+$ states are described by a three-$\alpha$ cluster model. The three-body Schr\"odinger equation with orthogonality conditions is accurately solved by the stochastic variational method with correlated Gaussian basis functions. To analyse the structure of these resonant states in a convenient form, we introduce a confining potential. The two-body density distributions together with the spectroscopic information clarify the structure of these states. We find that main configurations of both the second $0^+$ and $2^+$ states are acute-angled triangle shapes originating from the $^8$Be($0^+$)$+\alpha$ configuration. However, the $^8$Be$+\alpha$ components in the second $2^+$ state become approximately 2/3 because the 8Be subsystem is hard to excite, indicating that the state is not an ideal rigid rotational band member of the Hoyle state., Comment: 7 pages, 3 figures

Published

2023

2. Exploring the halo character and dipole response in the dripline nucleus $^{31}$F

Author

Singh, G., Singh, Jagjit, Casal, J., and Fortunato, L.

Subjects

Nuclear Theory, Nuclear Experiment

Abstract

Lying at the lower edge of the `island of inversion', neutron-rich Fluorine isotopes ($^{29-31}$F) provide a curious case to study the configuration mixing in this part of the nuclear landscape. Recent studies have suggested that a prospective two-neutron halo in the dripline nucleus $^{31}$F could be linked to the occupancy of the $pf$ intruder configurations. Focusing on configuration mixing, matter radii and neutron-neutron ($nn$) correlations in the ground-state of $^{31}$F, we explore various scenarios to analyze its possible halo nature as well as the low-lying electric dipole ($E$1) response within a three-body approach. We use an analytical, transformed harmonic oscillator basis under the aegis of a hyperspherical formalism to construct the ground state three-body wave function of $^{31}$F. The $^{31}$F ground-state configuration mixing and its matter radius are computed for different choices of the $^{30}$F structure coupled to the valence neutron. The admixture of {$p_{3/2}$, $d_{3/2}$, and $f_{7/2}$} components is found to play an important role, favouring the dominance of inverted configurations with dineutron spreads for two-neutron halo formation. The increase in matter radius with respect to the core radius, $\Delta r \geqslant$ 0.30 fm and the dipole distributions along with the integrated $B(E1)$ strengths of $\geqslant$ 2.6 $e^2$fm$^2$ are large enough to be compatible with other two-neutron halo nuclei. Three-body results for $^{31}$F indicate a large spatial extension in its ground state due to the inversion of the energy levels of the normal shell model scheme. The increase is augmented by and is proportional to the extent of the $p_{3/2}$ component in the wave function. Additionally, the enhanced dipole distributions and large $B(E1)$ strengths all point to the two-neutron halo character of $^{31}$F., Comment: 15 pages with 20 figures and two tables

Published

2021

3. Three-$\alpha$ configurations in the $0^{+}$ states of $^{12}\mathrm{C}$

Author

Moriya, H., Horiuchi, W., Casal, J., and Fortunato, L.

Subjects

Nuclear Theory

Abstract

Geometric configurations of three-$\alpha$ particles in the ground- and first-excited $J^\pi=0^+$ states of $^{12}$C are discussed within two types of $\alpha$-cluster models which treat the Pauli principle differently. Though there are some quantitative differences especially in the internal region of the wave functions, equilateral triangle configurations are dominant in the ground state, while in the first excited $0^+$ state isosceles triangle configurations dominate, originating from $^8{\rm Be}+\alpha$ configurations., Comment: 7 pages, 4 figures, contribution to the 8th Asia-Pacific Conference on Few-Body Problems in Physics (APFB2020), 1-5 March 2021, Kanazawa, Japan

Published

2021

4. Electric dipole response of low-lying excitations in the two-neutron halo nucleus $\boldsymbol{^{29}}$F

Author

Casal, J., Singh, Jagjit, Fortunato, L., Horiuchi, W., and Vitturi, A.

Subjects

Nuclear Theory, Nuclear Experiment

Abstract

The neutron-rich $^{28,29}$F isotopes have been recently studied via knockout and interaction cross-section measurements. The $2n$ halo in $^{29}$F has been linked to the occupancy of $pf$ intruder configurations. We investigate bound and continuum states in $^{29}$F, focusing on the $E1$ response of low-lying excitations and the effect of dipole couplings on nuclear reactions. $^{29}\text{F}$ ($^{27}\text{F}+n+n$) wave functions are built within the hyperspherical harmonics formalism, and reaction cross sections are calculated using the Glauber theory. Continuum states and $B(E1)$ transition probabilities are described in a pseudostate approach using the analytical THO basis. The corresponding structure form factors are used in CDCC calculations to describe low-energy scattering. Parity inversion in $^{28}$F leads to a $^{29}$F ground state characterized by 57.5% of $(p_{3/2})^2$ intruder components, a strong dineutron configuration, and an increase of the matter radius with respect to the core radius of $\Delta R=0.20$ fm. Glauber-model calculations for a carbon target at 240 MeV/nucleon provide a total reaction cross section of 1370 mb, in agreement with recent data. The model produces also a barely bound excited state corresponding to a quadrupole excitation. $B(E1)$ calculations into the continuum yield a total strength of 1.59 e$^2$fm$^2$ up to 6 MeV, and the $E1$ distribution exhibits a resonance at $\approx$ 0.85 MeV. Results using a standard shell-model order for $^{28}$F lead to a considerable reduction of the $B(E1)$ distribution. The four-body CDCC calculations for $^{29}\text{F}+^{120}\text{Sn}$ around the Coulomb barrier are dominated by dipole couplings, which totally cancel the Fresnel peak in the elastic cross section. These results are consistent with a two-neutron halo and may guide future experimental campaigns., Comment: 17 pages, 15 figures. Accepted in Physical Review C

Published

2020

5. Alpha-induced inelastic scattering and alpha-transfer reactions in $^{12}$C and $^{16}$O within the Algebraic Cluster Model

Author

Casal, J., Fortunato, L., Lanza, E. G., and Vitturi, A.

Subjects

Nuclear Theory, Nuclear Experiment

Abstract

The molecular algebraic model based on three and four alpha clusters is used to describe the inelastic scattering of alpha particles populating low-lying states in $^{12}$C and $^{16}$O. Optical potentials and inelastic formfactors are obtained by folding densities and transition densities obtained within the molecular model. One-step and multi-step processes can be included in the reaction mechanism calculation. In spite of the simplicity of the approach the molecular model with rotations and vibrations provides a reliable description of reactions where $\alpha$-cluster degrees of freedom are involved and good results are obtained for the excitation of several low-lying states. Within the same model we briefly discuss the expected selection rules for the $\alpha$-transfer reactions from $^{12}$C and $^{16}$O., Comment: 8 pages, 8 figures; submitted to EPJA special issue Cluster Structure and Dynamics of Nuclei - A Tribute to Mahir Hussein

Published

2020

6. The $\boldsymbol{^{29}}$F nucleus as a lighthouse on the coast of the island of inversion

Author

Fortunato, L., Casal, J., Horiuchi, W., Singh, Jagjit, and Vitturi, A.

Subjects

Nuclear Theory, Nuclear Experiment

Abstract

The exotic, neutron-rich and weakly-bound isotope $^{29}$F stands out as a waymarker on the southern shore of the island of inversion, a portion of the nuclear chart where the effects of nuclear forces lead to a reshuffling of the single particle levels and to a reorganization of the nuclear structure far from stability. This nucleus has become very popular, as new measurements allow to refine theoretical models. We review the latest developments and suggest how to further assess the structure by proposing predictions on electromagnetic transitions that new experiments of Relativistic Coulomb Excitation should soon become able to measure., Comment: 11 pages, 4 figures; perspective article

Published

2020

7. Exploring two-neutron halo formation in the ground-state of $^{29}$F within a three-body model

Author

Singh, Jagjit, Casal, J., Horiuchi, W., Fortunato, L., and Vitturi, A.

Subjects

Nuclear Theory, Nuclear Experiment

Abstract

Background$\colon$ The $^{29}$F system is located at the lower-N boundary of the "island of inversion" and is an exotic, weakly bound system. Little is known about this system beyond its two-neutron separation energy ($S_{2n}$) with large uncertainties. A similar situation is found for the low-lying spectrum of its unbound binary subsystem $^{28}$F. Purpose$\colon$ To investigate the configuration mixing, matter radius and neutron-neutron correlations in the ground state of $^{29}$F within a three-body model, exploring the possibility of $^{29}$F to be a two-neutron halo nucleus. Method$\colon$ The $^{29}$F ground-state wave function is built within the hyperspherical formalism by using an analytical transformed harmonic oscillator basis. The Gogny-Pires-Tourreil (GPT) nn interaction with central, spin-orbit and tensor terms is employed in the present calculations, together with different core$+n$ potentials constrained by the available experimental information on $^{28}$F. Results$\colon$ The $^{29}$F ground-state configuration mixing and its matter radius are computed for different choices of the $^{28}$F structure and $S_{2n}$ value. The admixture of d-waves with pf components are found to play an important role, favoring the dominance of dineutron configurations in the wave function. Our computed radii show a mild sensitivity to the $^{27}$F$+n$ potential and $S_{2n}$ values. The relative increase of the matter radius with respect to the $^{27}$F core lies in the range 0.1-0.4 fm depending upon these choices. Conclusions$\colon$ Our three-body results for $^{29}$F indicate the presence of a moderate halo structure in its ground state, which is enhanced by larger intruder components. This finding calls for an experimental confirmation., Comment: 8 pages, 4 figures, Final version

Published

2020

8. An overview of the scientific contribution of Andrea Vitturi to Nuclear Physics (being an account of the recent TNP19 meeting held in Padova)

Author

Fortunato, L., Alonso, C. E., Arias, J. M., Casal, J., Hagino, K., Lay, J. A., Lanza, E. G., Lenzi, S. M., Lubian, J., Oishi, T., and Pérez-Bernal, F.

Subjects

Nuclear Theory, Nuclear Experiment

Abstract

We give an account of the main achievements of the scientific career of Andrea Vitturi so far, that have recently been discussed during the workshop "Theoretical Nuclear Physics in Padova" on the occasion of his retirement from full professor at the University of Padova. He has oftentimes been the driving force behind numerous contributions to nuclear structure and nuclear reactions that are here reviewed: giant resonances, pairing correlations, collective modes, algebraic models, inelastic excitations, electromagnetic response, break-up and transfer reactions, coupled-channel formalism, clustering, subbarrier fusion processes, etc. Among these topics several inspirational works and ideas can be found that we would like to highlight.

Published

2019

9. Description of continuum structures in a discrete basis: Three-body resonances and two-nucleon decays

Author

Casal, J., Rodríguez-Gallardo, M., Arias, J. M., Gómez-Camacho, J., Fortunato, L., and Vitturi, A.

Subjects

Nuclear Theory

Abstract

Weakly bound and unbound three-body nuclei are studied by using the pseudostate method within the hyperspherical formalism. After introducing the theoretical framework, the method is applied first to the $\boldsymbol{^9}$Be nucleus, showing a good agreement with the available data for its low-lying dipole response. Then, recent results on the structure and decay of the two-neutron emitters $\boldsymbol{^{26}}$O and $\boldsymbol{^{16}}$Be are presented. In particular, the role of the $\boldsymbol{n}$-$\boldsymbol{n}$ correlation in shaping their properties is discussed., Comment: Proceedings of the 24th European Conference of Few-Body Problems in Physics (EFB24); SciPost contribution

Published

2019

10. Transition densities and form factors in the triangular $\alpha$-cluster model of $^{12}$C with application to $^{12}$C+$\alpha$ scattering

Author

Vitturi, A., Casal, J., Fortunato, L., and Lanza, E. G.

Subjects

Nuclear Theory

Abstract

Densities and transition densities are computed in an equilateral triangular alpha-cluster model for $^{12}$C, in which each $\alpha$ particle is taken as a gaussian density distribution. The ground-state, the symmetric vibration (Hoyle state) and the asymmetric bend vibration are analyzed in a molecular approach and dissected into their components in a series of harmonic functions, revealing their intrinsic structures. The transition densities in the laboratory frame are then used to construct form-factors and to compute DWBA inelastic cross-sections for the $^{12}$C$(\alpha, \alpha')$ reaction. The comparison with experimental data indicates that the simple geometrical model with rotations and vibrations gives a reliable description of reactions where $\alpha$-cluster degrees of freedom are involved.

Published

2019

11. Three-body Description of $2n$-Halo and Unbound $2n$-Systems: $^{22}$C and $^{26}$O

Author

Singh, Jagjit, Horiuchi, W., Fortunato, L., and Vitturi, A.

Subjects

Nuclear Theory

Abstract

We study the two-neutron correlations in the ground state of the weakly-bound two-neutron halo nucleus $^{22}$C sitting at the edge of the neutron-drip line and also in the unbound nucleus $^{26}$O sitting beyond the neutron dripline. For the present study, we employ a three-body (core$+n+n$) structure model designed for describing the two-neutron halo system by explicit inclusion of unbound continuum states of the subsystem (core$+n$). We use either a density-independent or a density-dependent contact-delta interaction to describe the neutron-neutron interaction and its strength is varied to fix the binding energy. We report the configuration mixing in the ground state of these systems for different choices of pairing interactions., Comment: 4 Pages, 1 Figure, 2 Tables. 13th International Conference on Nucleus-Nucleus Collisions (NN2018)

Published

2019

12. Three-body description of $\boldsymbol{^{12}}$C: From the hyperspherical formulation to the algebraic cluster model and its application to $\boldsymbol{\alpha}+\boldsymbol{^{12}}$C inelastic scattering

Author

Casal, J., Fortunato, L., Vitturi, A., and Lanza, E. G.

Subjects

Nuclear Theory

Abstract

Form factors for $\alpha+{^{12}}$C inelastic scattering are obtained within two theoretical ($\alpha+\alpha+\alpha$) approaches: The hyperspherical framework for three identical bosons, and the algebraic cluster model assuming the $D_{3h}$ symmetry of an equilateral triangle subject to rotations and vibrations. Results show a good agreement, with form factors involving the Hoyle state having a slightly larger extension within the hyperspherical approach. Coupled-channel calculations using these form factors are ongoing., Comment: Proceedings of the NSD2019 conference

Published

2019

13. Two-particle transfer processes as a signature of shape phase transition in Zirconium isotopes

Author

Lay, J. A., Vitturi, A., Fortunato, L., Tsunoda, Y., Togashi, T., and Otsuka, T.

Subjects

Nuclear Theory, Nuclear Experiment

Abstract

We explore two-particle transfer reactions as a unique probe of the occurence of shape coexistence in shape phase transitions. The (t,p) reactions to the ground state and to excited $0^+$ states are calculated for the isotope chain of even-even Zirconium isotopes starting from stable nuclei up to beyond current experimental limits. Two-particle spectroscopic factors derived from Monte Carlo Shell Model calculations are used, together with the sequential description of the two-particle transfer reaction mechanism. The calculation shows a clear signature for a shape phase transition between $^{98}$Zr and $^{100}$Zr, which displays coexistence of a deformed ground state with an excited spherical $0^+$ state. Furthermore, we show that there is a qualitative difference with respect to the case of a normal shape phase transition that can be discriminated with two-neutron transfer reactions., Comment: 4 figures, 1 table

Published

2019

14. The algebraic molecular model in $^{12}$C and its application to the $\alpha$+$^{12}$C scattering: from densities and transition densities to optical potentials and nuclear formfactors

Author

Vitturi, A., Casal, J., Fortunato, L., and Lanza, E. G.

Subjects

Nuclear Theory

Abstract

The algebraic molecular model is used in $^{12}$C to construct densities and transition densities connecting low-lying states of the rotovibrational spectrum, first and foremost those belonging to the rotational bands based on the ground and the Hoyle states. These densities are then used as basic ingredients to calculate, besides electromagnetic transition probabilities, nuclear potentials and formfactors to describe elastic and inelastic $\alpha$+$^{12}$C scattering processes. The calculated densities and transition densities are also compared with those obtained by directly solving the problem of three interacting alpha's within a three-body approach where continuum effects, relevant in particular for the Hoyle state, are properly taken into account., Comment: Contribution to "Symmetries and Order: Algebraic Methods in Many Body Systems", in honor of F. Iachello

Published

2019

15. Two-neutron correlations in a Borromean $^{20}{\rm C}+n+n$ system: Sensitivity of unbound subsystems

Author

Singh, Jagjit, Horiuchi, W., Fortunato, L., and Vitturi, A.

Subjects

Nuclear Theory, Nuclear Experiment

Abstract

The structure of $^{22}$C plays a vital role in the new physics at subshell closure of $N=16$ in the neutron-rich region. We study the two-neutron correlations in the ground state of the weakly-bound Borromean nucleus $^{22}$C sitting at the edge of the neutron-drip line and its sensitivity to ${\rm core}$-$n$ potential. For the present study, we employ a three-body (${\rm core}+n+n$) structure model designed for describing the Borromean system by explicit coupling of unbound continuum states of the subsystem (${\rm core}+n$). We use a density-independent contact-delta interaction to describe the neutron-neutron interaction and its strength is varied to fix the binding energy. Along with the ground-state properties of $^{22}$C, we investigate its electric-dipole and monopole responses, discussing the contribution of various configurations. Our results indicate more configuration mixing as compared to the previous studies in the ground state of $^{22}$C. However, they strongly depend upon the choice of the $^{20}{\rm C}$-$n$ potential as well as the binding energy of $^{22}$C, which call for new precise measurements for the low-lying continuum structure of the binary system ($^{20}{\rm C}+n$) and the mass of $^{22}$C. These measurements will be essential to understand the Borromean three-body system $^{22}$C with more accuracy., Comment: 13 pages, 6 figures, To appear in Few-Body Systems (2019)

Published

2018

16. Algebraic model for single-particle energies of $\Lambda$ hypernuclei

Author

Fortunato, L. and Hagino, K.

Subjects

Nuclear Theory, High Energy Physics - Phenomenology

Abstract

A model is proposed for the spectrum of $\Lambda$ hypernuclei based on the $u(3)\times u(2)$ Lie algebra, in which the internal degrees of freedom of the spin-1/2 $\Lambda$ particle are treated in the Fermionic $u(2)$ scheme, while the motion of the hyperon inside a nucleus is described in the Bosonic $u(3)$ harmonic oscillator scheme. Within this model, a simple formula for single-particle energies of the $\Lambda$ particle is obtained from the natural dynamical symmetry. The formula is applied to the experimental data on the reaction spectroscopy for the $^{89}_\Lambda$Y and $^{51}_\Lambda$V hypernuclei, providing a clear theoretical interpretation of the observed structures., Comment: 9 pages, 2 figures

Published

2016

17. Electric multipole response of the halo nucleus $^6$He

Author

Singh, Jagjit, Fortunato, L., Vitturi, A., and Chatterjee, R.

Subjects

Nuclear Theory

Abstract

The role of different continuum components in the weakly-bound nucleus $^6$He is studied by coupling unbound spd-waves of $^5$He by means of simple pairing contact-delta interaction. The results of our previous investigations in a model space containing only p-waves, showed the collective nature of the ground state and allowed the calculation of the electric quadrupole transitions. We extend this simple model by including also sd-continuum neutron states and we investigate the electric monopole, dipole and octupole response of the system for transitions to the continuum, discussing the contribution of different configurations., Comment: 22 pages, 10 figures

Published

2016

18. New experiments demand for a more precise analysis of continuum spectrum in 6He: technical details and formalism

Author

Singh, Jagjit and Fortunato, L.

Subjects

Nuclear Theory

Abstract

A simple three-body model of 6He is extended to include sd-continuum states in the picture in addition to the already investigated p-states. The role of different continuum components in the weakly bound nucleus 6He is studied by coupling unbound spd-waves of 5He by using simple pairing contact-delta interaction. The main focus of this paper is to outline the procedure that allows the calculation of different configurations of 6He including continuum states and to set up basic ingredients for computations. The method and results discussed here will be used for the calculation of monopole, dipole, quadrupole and octupole response of 6He., Comment: 6 pages, 2 figures, presented at XXXIV MAZURIAN LAKES CONFERENCE ON PHYSICS Frontiers in Nuclear Physics, Piaski, Poland, September 6-13, 2015. Acta Physica Polonica B (2016)

Published

2016

19. Electromagnetic selection rules in the triangular alpha-cluster model of 12C

Author

Stellin, G., Fortunato, L., and Vitturi, A.

Subjects

Nuclear Theory, Nuclear Experiment, Physics - Atomic and Molecular Clusters

Abstract

After recapitulating the procedure to find the bands and the states occurring in the $\mathcal{D}_{3h}$ alpha-cluster model of $^{12}$C in which the clusters are placed at the vertexes of an equilateral triangle, we obtain the selection rules for electromagnetic transitions. While the alpha cluster structure leads to the cancellation of E1 transitions, the approximations carried out in deriving the roto-vibrational hamiltonian lead to the disappearance of M1 transitions. Furthermore, although in general the lowest active modes are E2, E3, $\cdots$ and M2, M3, $\cdots$, the cancellation of M2, M3 and M5 transitions between certain bands also occurs, as a result of the application of group theoretical techniques drawn from molecular physics. These implications can be very relevant for the spectroscopic analysis of $\gamma$-ray spectra of $^{12}$C.

Published

2015

20. Continuum discretized BCS approach for weakly bound nuclei

Author

Lay, J. A., Alonso, C. E., Fortunato, L., and Vitturi, A.

Subjects

Nuclear Theory

Abstract

The Bardeen-Cooper-Schrieffer (BCS) formalism is extended by including the single-particle continuum in order to analyse the evolution of pairing in an isotopic chain from stability up to the drip line. We propose a continuum discretized generalized BCS based on single-particle pseudostates (PS). These PS are generated from the diagonalization of the single-particle Hamiltonian within a Transformed Harmonic Oscillator (THO) basis. The consistency of the results versus the size of the basis is studied. The method is applied to neutron rich Oxygen and Carbon isotopes and compared with similar previous works and available experimental data. We make use of the flexibility of the proposed model in order to study the evolution of the occupation of the low-energy continuum when the system becomes weakly bound. We find a larger influence of the non-resonant continuum as long as the Fermi level approaches zero., Comment: 20 pages, 16 figures, to be submitted

Published

2015

21. The electron screening puzzle and nuclear clustering

Author

Spitaleri, C., Bertulani, C. A., Fortunato, L., and Vitturi, A.

Subjects

Nuclear Experiment, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Solar and Stellar Astrophysics, Nuclear Theory

Abstract

Accurate measurements of nuclear reactions of astrophysical interest within, or close to, the Gamow peak, show evidence of an unexpected effect attributed to the presence of atomic electrons in the target. The experiments need to include an effective "screening" potential to explain the enhancement of the cross sections at the lowest measurable energies. Despite various theoretical studies conducted over the past 20 years and numerous experimental measurements, a theory has not yet been found that can explain the cause of the exceedingly high values of the screening potential needed to explain the data. In this letter we show that instead of an atomic physics solution of the "electron screening puzzle", the reason for the large screening potential values is in fact due to clusterization effects in nuclear reactions, in particular for reaction involving light nuclei., Comment: 6 pages, 2 figures, accepted for publication in Physics Letters B

Published

2015

22. Pairing in the continuum: the quadrupole response of the Borromean nucleus 6He

Author

Fortunato, L., Chatterjee, R., Singh, Jagjit, and Vitturi, A.

Subjects

Nuclear Theory, Nuclear Experiment

Abstract

The ground state and low-lying continuum states of 6He are found within a shell model scheme, in a basis of two-particle states built out of continuum p-states of the unbound 5He nucleus, using a simple pairing contact-delta interaction. This accounts for the Borromean character of the bound ground state, revealing its composition. We investigate the quadrupole response of the system and we put our calculations into perspective with the latest experimental results. The calculated quadrupole strength distribution reproduces the narrow 2+ resonance, while a second wider peak is found at about 3.9 MeV above the g.s. energy., Comment: 5 pages, 5 figures

Published

2014

23. Angular momentum non conserving symmetries in bosonic models

Author

Fortunato, L. and de Graaf, W. A.

Subjects

Mathematical Physics, Nuclear Theory, Quantum Physics

Abstract

The Levi-Malcev decomposition is applied to bosonic models of quantum mechanics based on unitary Lie algebras u(2), u(2)+u(2), u(3) and u(4) to clearly disentangle semisimple subalgebras. The theory of weighted Dynkin diagrams is then applied to identify conjugacy classes of relevant A_1 subalgebras allowing to introduce a complete classification of new angular momentum non conserving (AMNC) dynamical symmetries. The tensor analysis of the whole algebra based on the new "angular momentum" operators reveals unexpected spinors to occur in purely bosonic models. The new chains of subalgebra can be invoked to set up ANMC bases for diagonalization., Comment: to be published in J.P.A

Published

2011

24. Detailed analysis of quantum phase transitions within the $u(2)$ algebra

Author

Fortunato, L. and Sartori, L.

Subjects

Nuclear Theory

Abstract

We analyze in detail the quantum phase transitions that arise in models based on the $u(2)$ algebraic description for bosonic systems with two types of scalar bosons. First we discuss the quantum phase transition that occurs in hamiltonians that admix the two dynamical symmetry chains $u(2)\supset u(1)$ and $u(2)\supset so(2)$ by diagonalizing the problem exactly in the $u(1)$ basis. Then we apply the coherent state formalism to determine the energy functional. Finally we show that a quantum phase transition of a different nature, but displaying similar characteristics, may arise also within a single chain just by including higher order terms in the hamiltonian., Comment: 5 figures

Published

2009

25. Electric and magnetic response to the continuum for A=7 isobars in a dicluster model

Author

Mason, A., Chatterjee, R., Fortunato, L., and Vitturi, A.

Subjects

Nuclear Theory

Abstract

Mirror isobars $^7$Li and $^7$Be are investigated in a dicluster model. The magnetic dipole moments and the magnetic dipole response to the continuum are calculated in this framework. The magnetic contribution is found to be small with respect to electric dipole and quadrupole excitations even at astrophysical energies, at a variance with the case of deuteron. Energy weighted molecular sum rules are evaluated and a formula for the molecular magnetic dipole sum rule is found which matches the numerical calculations. Cross-sections for photo-dissociation and radiative capture as well as the S-factor for reactions of astrophysical significance are calculated with good agreement with known experimental data., Comment: Accepted in EPJA

Published

2008

26. Role of Higher Multipole Excitations in the Electromagnetic Dissociation of One Neutron Halo Nuclei

Author

Chatterjee, R., Fortunato, L., and Vitturi, A.

Subjects

Nuclear Theory

Abstract

We investigate the role of higher multipole excitations in the electromagnetic dissociation of one-neutron halo nuclei within two different theoretical models -- a finite range distorted wave Born approximation and another in a more analytical method with a finite range potential. We also show, within a simple picture, how the presence of a weakly bound state affects the breakup cross section., Comment: 8 pages, 9 figures

Published

2007

27. Solution of the Bohr hamiltonian for soft triaxial nuclei

Author

Fortunato, L., De Baerdemacker, S., and Heyde, K.

Subjects

Nuclear Theory, Nuclear Experiment

Abstract

The Bohr-Mottelson model is solved for a generic soft triaxial nucleus, separating the Bohr hamiltonian exactly and using a number of different model-potentials: a displaced harmonic oscillator in $\gamma$, which is solved with an approximated algebraic technique, and Coulomb/Kratzer, harmonic/Davidson and infinite square well potentials in $\beta$, which are solved exactly. In each case we derive analytic expressions for the eigenenergies which are then used to calculate energy spectra. Here we study the chain of osmium isotopes and we compare our results with experimental information and previous calculations., Comment: 13 pages, 9 figures

Published

2006

28. Phase transitions in the Interacting Boson Fermion Model: the gamma-unstable case

Author

Alonso, C. E., Arias, J. M., Fortunato, L., and Vitturi, A.

Subjects

Nuclear Theory

Abstract

The phase transition around the critical point in the evolution from spherical to deformed gamma-unstable shapes is investigated in odd nuclei within the Interacting Boson Fermion Model. We consider the particular case of an odd j=3/2 particle coupled to an even-even boson core that undergoes a transition from spherical U(5) to gamma-unstable O(6) situation. The particular choice of the j=3/2 orbital preserves in the odd case the condition of gamma-instability of the system. As a consequence, energy spectrum and electromagnetic transitions, in correspondence of the critical point, display behaviours qualitatively similar to those of the even core. The results are also in qualitative agreement with the recently proposed E(5/4) model, although few differences are present, due to the different nature of the two schemes., Comment: In press in PRC as rapid communication. 7 pages, 4 figures

Published

2005

29. Soft triaxial rotor in the vicinity of $\gamma=\pi/6$ and its extensions

Author

Fortunato, L., De Baerdemacker, S., and Heyde, K.

Subjects

Nuclear Theory

Abstract

The collective Bohr hamiltonian is solved for the soft triaxial rotor around $\gamma_0=\pi/6$ with a displaced harmonic oscillator potential in $\gamma$ and a Kratzer-like potential in $\beta$. The properties of the spectrum are outlined and a generalization for the more general triaxial case with $0<\gamma<\pi/6$ is proposed., Comment: Contribution to ENAM '04 conference. 2 pages, 2 figure

Published

2004

30. On the Excitation of Double Giant Resonances in Heavy Ion Reactions

Author

Dasso, C. H., Fortunato, L., Lanza, E. G., and Vitturi, A.

Subjects

Nuclear Theory

Abstract

The interplay of nuclear and Coulomb processes in the inelastic excitation of single- and double-phonon giant resonances in heavy ion collisions is studied within a simple reaction model. Predominance of the Coulomb excitation mechanism on the population of the single-phonon and, on the contrary, predominance of the nuclear excitation for the double-phonon is evidenced. The effect of the spreading of the strength distribution of the giant resonances on the excitation process is analyzed, showing sizeable modifications in the case of Coulomb dominated processes., Comment: Accepten in Nuclear Physics A. 10 eps figures and source file in an uncompressed tar package

Published

2003

31. Enhanced excitation of Giant Pairing Vibrations in heavy-ion reactions induced by weakly-bound projectiles

Author

Fortunato, L., von Oertzen, W., Sofia, H. M., and Vitturi, A.

Subjects

Nuclear Theory

Abstract

The use of radioactive ion beams is shown to offer the possibility to study collective pairing states at high excitation energy, which are not usually accessible with stable projectiles because of large energy mismatch. In the case of two-neutron stripping reactions induced by 6He, we predict a population of the Giant Pairing Vibration in 208Pb or 116Sn with cross sections of the order of a millibarn, dominating over the mismatched transition to the ground state., Comment: 6 pages, 4 figures

Published

2001

32. The pairing Hamiltonian for one pair of identical nucleons bound in a potential well

Author

Barbaro, M. B., Fortunato, L., Molinari, A., and Quaglia, M. R.

Subjects

Nuclear Theory

Abstract

The problem of one pair of identical nucleons sitting in ${\cal N}$ single particle levels of a potential well and interacting through the pairing force is treated introducing even Grassmann variables. The eigenvectors are analytically expressed solely in terms of these with coefficients fixed by the eigenvalues and the single particle energies. When the latter are those of an harmonic oscillator well an accurate expression is derived for both the collective eigenvalue and for those trapped in between the single particle levels, for any strength of the pairing interaction and for any number of levels. Notably the trapped solutions are labelled through an index upon which they depend parabolically., Comment: 5 pages, 1 postscript figure

Published

2001

33. The pairing Hamiltonian for one pair of nucleons bound in a potential well

Author

Barbaro, M. B., Fortunato, L., Molinari, A., and Quaglia, M. R.

Subjects

Nuclear Theory, High Energy Physics - Phenomenology

Abstract

The problem of one pair of identical nucleons sitting in ${\cal N}$ single particle levels of a potential well and interacting through the pairing force is treated introducing, in the Hamiltonian formalism, even Grassmann variables. The eigenvectors are analytically expressed solely in terms of these with coefficients fixed by the eigenvalues and the single particle energies. For these a specific model is needed: in the case of the harmonic oscillator well, for any strength of the pairing interaction, an accurate expression is derived for both the collective eigenvalue and for those trapped in between the single particle levels. Notably the latter are labelled through an index upon which they depend parabolically., Comment: 15 pages, Latex, 2 figures

Published

2000