F. Camera scite author profile

The symmetry energy contribution to the nuclear equation of state impacts various phenomena in nuclear astrophysics, nuclear structure, and nuclear reactions. Its determination is a key objective of contemporary nuclear physics, with consequences for the understanding of dense matter within neutron stars. We examine the results of laboratory experiments that have provided initial constraints on the nuclear symmetry energy and on its density dependence at and somewhat below normal nuclear matter density. Even though some of these constraints have been derived from properties of nuclei while others have been derived from the nuclear response to electroweak and hadronic probes, within experimental uncertainties-they are consistent with each other. We also examine the most frequently used theoretical models that predict the symmetry energy and its slope parameter. By comparing existing constraints on the symmetry pressure to theories, we demonstrate how contributions of three-body forces, which are essential ingredients in neutron matter models, can be determined.

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Constraints on the symmetry energy and neutron skins from pygmy resonances inNi68andSn132
Carbone
¹
,
Colò
²
,
Bracco
³

et al. 2010
Phys. Rev. C
336
26
325
1
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Correlations between the behavior of the nuclear symmetry energy, the neutron skins, and the percentage of energy-weighted sum rule (EWSR) exhausted by the Pygmy Dipole Resonance (PDR) in 68 Ni and 132 Sn have been investigated by using different Random Phase Approximation (RPA) models for the dipole response, based on a representative set of Skyrme effective forces plus meson-exchange effective Lagrangians. A comparison with the experimental data has allowed us to constrain the value of the derivative of the symmetry energy at saturation. The neutron skin radius is deduced under this constraint.

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AGATA—Advanced GAmma Tracking Array

Akkoyun¹,

Algora²,

Alikhani³

et al. 2012

Nuclear Instruments and Methods in Physics Research Section A:

419

208

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The Advanced GAmma Tracking Array (AGATA) is a European project to develop and operate the next generation γ-ray spectrometer. AGATA is based on the technique of γ-ray energy tracking in electrically segmented high-purity germanium crystals. This technique requires the accurate determination of the energy, time and position of every interaction as a γ ray deposits its energy within the detector volume. Reconstruction of the full interaction path results in a detector with very high efficiency and excellent spectral response. The realisation of γ-ray tracking and AGATA is a result of many technical advances. These include the development of encapsulated highly segmented germanium detectors assembled in a triple cluster detector cryostat, an electronics system with fast digital sampling and a data acquisition system to process the data at a high rate. The full characterisation of the crystals was measured and compared with detector-response simulations. This enabled pulse-shape analysis algorithms, to extract energy, time and position, to be employed. In addition, tracking algorithms for event reconstruction were developed. The first phase of AGATA is now complete and operational in its first physics campaign. In the future AGATA will be moved between laboratories in Europe and operated in a series of campaigns to take advantage of the different beams and facilities available to maximise its science output. The paper reviews all the achievements made in the AGATA project including all the necessary infrastructure to operate and support the spectrometer

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Search for the Pygmy Dipole Resonance inNi68at600 MeV/nucleon

Wieland¹,

Bracco²,

Camera³

et al. 2009

Phys. Rev. Lett.

248

177

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The gamma decay from Coulomb excitation of 68Ni at 600 MeV/nucleon on a Au target was measured using the RISING setup at the fragment separator of GSI. The 68Ni beam was produced by a fragmentation reaction of 86Kr at 900 MeV/nucleon on a 9Be target and selected by the fragment separator. The gamma rays produced at the Au target were measured with HPGe detectors at forward angles and with BaF2 scintillators at backward angles. The measured spectra show a peak centered at approximately 11 MeV, whose intensity can be explained in terms of an enhanced strength of the dipole response function (pygmy resonance). Such pygmy structure has been predicted in this unstable neutron-rich nucleus by theory.

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F. Camera

Constraints on the symmetry energy and neutron skins from experiments and theory

Constraints on the symmetry energy and neutron skins from pygmy resonances inNi68andSn132
Carbone
¹
,
Colò
²
,
Bracco
³

et al. 2010
Phys. Rev. C
336
26
325
1
View full text Add to dashboard Cite

AGATA—Advanced GAmma Tracking Array

Search for the Pygmy Dipole Resonance inNi68at600 MeV/nucleon

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F. Camera

Constraints on the symmetry energy and neutron skins from experiments and theory

Constraints on the symmetry energy and neutron skins from pygmy resonances inNi68andSn132Carbone1, Colò2, Bracco3 et al. 2010Phys. Rev. C336263251View full textAdd to dashboardCite

AGATA—Advanced GAmma Tracking Array

Search for the Pygmy Dipole Resonance inNi68at600 MeV/nucleon

Contact Info

Product

Resources

About

Constraints on the symmetry energy and neutron skins from pygmy resonances inNi68andSn132
Carbone
¹
,
Colò
²
,
Bracco
³

et al. 2010
Phys. Rev. C
336
26
325
1
View full text Add to dashboard Cite