Prof.
Gabriel Martínez Pinedo
(Technische Universität Darmstadt)
9/2/18, 9:30 AM
Dr
Andreas Goergen
(CEA Saclay)
9/2/18, 11:30 AM
Paolo D'Avanzo
(INAF - Osservatorio Astronomico di Brera)
9/2/18, 2:30 PM
Prof.
Itzhak Tserruya
(Weizmann Institute of Science)
9/3/18, 10:30 AM
In this talk, I shall (i) review the results from almost 25 years of dilepton measurements, from the top RHIC energy of sqrt(s_NN)=200 GeV down to the lowest SPS energy of sqrt(s_NN)= 9 GeV, and their relation to chiral symmetry restoration, (ii) discuss the potential, challenges and prospects of extending the dilepton measurements at much lower energies, mainly at the NICA facility under...
Prof.
Tetyana Galatyuk
(TU Darmstadt / GSI)
9/3/18, 11:30 AM
Collisions of heavy atomic nuclei at (ultra-)relativistic energies provide a fascinating opportunity
to produce in the laboratory, for a short moment (1023 s), matter under extreme conditions of
temperature (1012 K) and density (25 times ground state density). Such matter radiates photons,
whose spectrum re
ects the temperature as well as possible critical behavior in the vicinity...
Elena Petreska
(VU/Nikhef)
9/3/18, 12:00 PM
A detailed, multidimensional imaging of protons and nuclei at high energy is one of the main goals of Quantum Chromodynamics. We review two complementary theories that study the dynamics of partons (quarks and gluons) in protons and nuclei when they are accelerated to large velocities: the factorization approach with multidimensional distribution functions and the Colour Glass Condensate...
Dr
Elena Ferreiro
(Universidad de Santiago de Compostela)
9/3/18, 2:30 PM
Quarkonium has been regarded as one of the golden probes to identify the phase transition from confined hadronic matter to
the deconfined quark-gluon plasma (QGP) in heavy-ion collisions. Recent theoretical developments in the study of the J/ψ
and ϒ families at the energies of Large Hadron Collider (LHC) are reviewed. In particular, the possible implications related to
the production and...
Prof.
Francesco Cappuzzello
(Universita' di Catania and INFN - LNS)
9/3/18, 2:30 PM
The presentation aims at describing the main achievements of the NUMEN project [1], together with an updated and detailed overview of the related R&D activities and theoretical developments. NUMEN proposes an innovative technique to access the nuclear matrix elements entering the expression of the lifetime of the double beta decay by cross section measurements of heavy-ion induced Double...
Dr
Federico Versari
(University of Bologna, INFN section of Bologna)
9/3/18, 2:55 PM
ANTARES is the largest and longest operated neutrino telescope in the Northern hemisphere. It is located 40 km off-shore Toulon, France, at a depth of 2475 m on the Mediterranean seabed and has been continuously taking data since 2006. Its primary goal is the search for astrophysical neutrinos in the TeV-PeV energy range. Its location and excellent angular resolution makes ANTARES sensitive to...
Alice Ohlson
(Yale University)
9/3/18, 2:55 PM
In high-energy collisions of heavy nuclei, the resulting state of matter attains such high temperatures and energy densities that quarks and gluons are no longer confined into hadrons. Known as the quark-gluon plasma (QGP), this matter occupies the high-temperature and high-density regime of the phase diagram of quantum chromodynamics (QCD). By probing the properties of the QGP, we are able...
Dr
Izabela Anna Kochanek
(LNGS)
9/3/18, 2:55 PM
The DarkSide-20k collaboration is preparing to equip 20 m² of SiPMs working in liquid argon at 86 K for the direct search of WIMPs. The collaboration had to solve many technological aspects, such as the development of SiPM optimized for operation in liquid argon, the readout of large SiPM-based detectors, the reliable packaging of more than 200000 SiPMs using radiopure materials. The packaging...
Dr
Alfredo Giuseppe Cocco
(INFN)
9/3/18, 3:11 PM
The PTOLEMY project aims to develop a scalable design for a Cosmic Neutrino Telescope to detect the Big Bang relic neutrino. This will be the first of its kind and the only telescope conceived that can look directly at the image encoded in neutrino density fluctuations of the Universe in the first second after the Big Bang. The PTOLEMY prototype at Princeton has become the basis of a new...
Prof.
Peter Schuck
(Institut de Physique Nucleaire Orsay)
9/3/18, 3:15 PM
Alpha clustering in nuclear systems has known an extraordinary growth in activity over the last 15 years or so. I have strongly participated in the theoretical developments of alpha clustering and with my collaborators I have for example proposed that the Hoyle state in 12C can be considered as an alpha particle condensate. This theory explains all known data of the Hoyle state, for instance...
Prof.
Boris Sharkov
(JINR Dubna)
9/3/18, 3:20 PM
This presentation outlines ongoing activities on development of heavy ion accelerator facilities, providing high-brightness beams capable of generating intense beams of RI as well as extreme state of nuclear matter. Manifested facilities goals is pushing the “intensity” and the “precision frontiers” to the extremes when accelerating full range of ion beam species from p+ to U to highest beam...
Dr
Maksym Zyzak
(GSI Helmholtzzentrum für Schwerionenforschung GmbH)
9/3/18, 3:38 PM
The future heavy ion experiment CBM at the FAIR facility will study the QCD phase diagram in the region of high baryon chemical potential at relatively moderate temperatures, where a complex structure is predicted by modern theories. In order to detect possible signatures of this structures, the physics program of the experiment includes a comprehensive study of the extremely rare probes like...
Prof.
Alexander Murphy
(University of Edinburgh)
9/3/18, 3:42 PM
The frontier of experimental particle physics research, and especially astroparticle physics research, frequently involves the detection of signals that are both rare, fewer than an event per year per kilogram of target, and small, with energy depositions at the keV scale. A prime example is the direct search for dark matter, although other signatures for new physics are also being sought,...
Dr
Roman Sagaidak
(Joint Institute for Nuclear Research)
9/3/18, 3:45 PM
Durability of targets and window foils irradiated by intense heavy ion (HI) beams in the experiments on synthesis of superheavy nuclei (SHN) carried out in Dubna with Gas-Filled Recoil Separator (DGFRS) has been considered. High fluxes of HIs and heat generated within relatively small areas and thicknesses of the target and foil used in DGFRS are inherent in such experiments. The ability of...
Gabriele Gaetano Fronzé
(TO)
9/3/18, 3:56 PM
ALICE (A Large Ion Collider Experiment) is devoted to the study of heavy-ion collisions at the CERN Large Hadron Collider (LHC). It is predicted that a deconfined state of hadronic matter, the Quark-Gluon Plasma (QGP), is created at the large energy densities reached in such collisions. The production of heavy quarkonium (ccbar and bbar bound states) appears modified in the presence of a QGP,...
Dr
Simone Sanfilippo
(ROMA3)
9/3/18, 3:57 PM
DarkSide uses a dual-phase Liquid Argon Time Projection Chamber to search for WIMP dark matter. The current detector, DarkSide-50, is running since mid 2015 with a target of 50 kg of argon from an underground source. The talk will present the latest results of searches of WIMP-nucleus interactions, with WIMP masses in the GeV-TeV range, and of WIMP-electron interactions, in the sub-GeV...
Dr
Alberto Ventura
(Istituto Nazionale di Fisica Nucleare, Sezione di Bologna, Italy), Dr
Paolo Finelli
(Dipartimento di Fisica e Astronomia dell' Università di Bologna and Istituto Nazionale di Fisica Nucleare, Sezione di Bologna, italy)
9/3/18, 4:15 PM
We compute nuclear state densities in the frame of the grand-canonical formalism in an energy (or, equivalently, temperature) range where residual two-body interactions and collective effects can reasonably be neglected. The single-particle states used in the calculations are generated in a self-consistent relativistic mean field at finite temperature [1] based on the NL3* [2] and DD-ME1 [3]...
Dr
Radu Vasilache
(Canberra Packard SRL)
9/3/18, 4:22 PM
In-beam dose measurements are paramount for any application seeking to harness the effects of the radiation beam, so all the future applications of the laser accelerated beams (as generated in the ELI and CETAL projects) will need such measurements. The gold standard in dose measurement remain the ion chambers, but for the beams we intend to measure they do present some limitations given be...
Dr
Evelina Bouhova-Thacker
(Lancaster University)
9/3/18, 4:32 PM
The associated production of vector boson with quarkonia is a key observable for understanding the quarkonium production mechanisms, including the separation of single and double parton scattering components.
This talk will present the latest differential measurements from ATLAS of (associated) quarkonium production.
Angela Bracco
(MI)
9/3/18, 5:30 PM
Prof.
Mikhail Itkis
(joint institute for nuclear research)
9/3/18, 6:25 PM
Dr
Ubirajara van Kolck
(Institut de Physique Nucleaire d'Orsay and University of Arizona)
9/4/18, 9:00 AM
Understanding the structure of nuclei from the underlying theory of strong interactions, QCD, has been a longstanding problem. Over the last quarter-century significant progress has been achieved with low-energy effective field theories (EFTs) of QCD and ab initio methods for the solution of the Schroedinger equation (and its many-body variants). Yet, this description remains highly complex....
Prof.
Patrick Achenbach
(Institut für Kernphysik, Joh. Gutenberg-Universität Mainz)
9/4/18, 9:30 AM
Charge symmetry is broken in QCD by the up-down quark mass difference and electromagnetic interactions. In Λ hypernuclei, charge symmetry breaking (CSB) manifests itself in a charge dependence of Λ separation energies.
At the Mainz Microtron MAMI the novel method of high-resolution spectroscopy of decay-pions in strangeness electroproduction was established to measure Λ separation energies. A...
Prof.
David Ireland
(University of Glasgow)
9/4/18, 10:00 AM
The spectrum of bound hadronic states is intimately connected with the behavious of QCD at low energies, where the theory in non-perturbative. An overview will be given of the progress in the study of baryon spectroscopy from recent experimental programmes. In particular, a range of photo-production measurements has been carried out, which include the extraction of several polarization...
Prof.
Marialuisa Aliotta
(University of Edinburgh)
9/4/18, 11:30 AM
Except for primordial hydrogen, helium and few other light species, all chemical elements in the universe originate from nuclear reactions occurring in both quiescent and explosive stages of stellar evolution. Such reactions take place over a narrow energy region, typically well below the Coulomb barrier between the interacting nuclei [1]. As a result, their reaction cross sections are...
Frank Gunsing
(CEA Saclay - Irfu)
9/4/18, 12:00 PM
Neutron-induced nuclear reactions, a substantial part of the more
generic notion of nuclear data, are important for a variety of research
fields, going from stellar nucleosynthesis, basic nuclear physics, to
nuclear technology to applications in dosimetry, medicine, and space
science. Accelerator-based neutron sources play a major role in
experimental studies for the determination of...
Mr
Roger Carlini
(Jefferson Lab)
9/4/18, 2:00 PM
Experimental programs in the fields of nuclear and particle physics are searching for evidence of physics beyond that explained by current theories. The Standard Model cannot predict fundamental parameters such as the mass of the Higgs boson or account for dark matter/energy, gravity, and the matter–antimatter asymmetry in the Universe. These limitations have inspired direct searches for...
Stephane Goriely
(Universite Libre de Bruxelles)
9/4/18, 2:00 PM
One of the major issues in modern astrophysics concerns the analysis and understanding of the present composition of the Universe and its various constituting objects. Nucleosynthesis models aim to explain the origin of the
different nuclei observed in nature by identifying the possible processes able to synthesize them. Though the origin of most of the nuclides lighter than iron through the...
Dr
Zsolt Podolyak
(University of Surrey)
9/4/18, 2:00 PM
Information gained on neutron-rich N~126 nuclei is essential for the understanding of nuclear structure in heavy nuclei. Studies around doubly magic systems allow direct tests of the purity of shell model wave functions. From a longer-term perspective, experiments in this region pave the way toward the proposed nuclear-astrophysical r-process waiting point nuclei along the N = 126 shell...
Dr
Gabor Gyula Kiss
(Atomki)
9/4/18, 2:25 PM
About 50% of the chemical elements heavier than iron are synthesized in stellar explosions, in supernovas or in neutron star mergers. After tremendous experimental and theoretical efforts and significant progress in astrophysical modeling, the origin of neither the r nor the p isotopes is fully understood. One thing is certain: improved nuclear physics knowledge is needed to describe better...
Dr
Georg Georg Schepers
(GSI Darmstadt, Germany)
9/4/18, 2:43 PM
The fixed target experiment PANDA at the High Energy Storage Ring (HESR) of the Facility for Antiproton and Ion Research in Europe (FAIR) in Darmstadt will open unique possibilities to solve fundamental questions of hadron physics by using a cooled high-intensity antiproton beam. Two fast and compact Ring Imaging Cherenkov detectors using the DIRC (Detection of Internally Reflected Cherenkov...
Dr
Esra Yüksel
(Department of Physics, Faculty of Science, University of Zagreb, Croatia, Department of Physics, Yildiz Technical University, 34220 Esenler, Istanbul, Turkey)
9/4/18, 2:45 PM
The nuclear weak interaction processes (beta decay, electron capture, neutrino-nucleus scattering etc.,) is known to play an important role in the supernovae evolution and formation of the chemical elements. The calculation of these processes necessitates accurate knowledge on the spin-isospin excitations as well as the ground state properties of nuclei [1,2]. In this framework, the...
Mr
Thomas Chillery
(University of Edinburgh)
9/4/18, 2:50 PM
Proton-induced reactions on 6Li play an important role in nuclear astrophysics studies in relation to primordial lithium abundances. Whilst big bang nucleosynthesis theory excludes the existence of “primordial” 6Li, the 6Li/7Li abundance ratio observed in pre-main sequence (PMS) stars is ~ 0.5. The 6Li(p,a)3He and 6Li(p,g)7Be reactions are the main processes that contribute to 6Li destruction...
Mr
Miguel Macias Martinez
(University of Seville - Centro Nacional de Aceleradores)
9/4/18, 3:01 PM
The neutron research activities with the Tandem Pelletron Accelerator at CNA in Seville (Spain) is based on the development of neutron sources with different energy and angular distributions, which could be generated by 7Li(p,n) and D(D,n) reactions. The neutron beam characterization is done using the Time of Flight technique (TOF). The TOF technique allows measuring neutron induced cross...
Mr
Víctor Vaquero Soto
(CSIC)
9/4/18, 3:05 PM
The nuclei around the doubly magic nucleus 132Sn (N=82 and Z=50) are of great interest both for nuclear structure investigations and nuclear astrophysics. Studying these systems, information about the evolution of nucleon-nucleon correlations, quadrupole collectivity and single-particle energies can be obtained. New experimental information allows to test different nuclear models and examine...
Dr
Umberto Battino
(University of Edinburgh)
9/4/18, 3:07 PM
The production of the proton-rich stable isotopes beyond iron that we observe today in the solar system is still uncertain. Core collapse supernovae (ccSNe) and thermonuclear supernovae (SNe Ia) exploding within the single-degenerate scenario have been proposed to be a potential source for these isotopes. Recent works performing Galactic Chemical Evolution (GCE) calculations, showed that...
Cristian Massimi
(BO),
Federica Mingrone
(CERN)
9/4/18, 3:19 PM
In 2002 the neutron time-of-flight facility n_TOF started its operation
at CERN using a 185-m beam line. After a series of successful
measurement campaigns, a second beam line, at 18.5 m from the
neutron-producing target, was built in 2014. The two lines provide
an excellent combination of good energy resolution and high
instantaneous neutron flux. The latter feature results in a...
Dr
Carlos Munoz Camacho
(IPN)
9/4/18, 3:30 PM
Exclusive processes at high momentum transfer, such as Deeply Virtual Compton Scattering (DVCS) access the Generalized Parton Distributions (GPDs) of the nucleon. GPDs offer the exciting possibility of mapping the 3-D internal structure of protons and neutrons by providing a transverse image of the constituents as a function of their longitudinal momentum.
A vigorous experimental program is...
Dr
Mustafa Schmidt
(II. Physikalisches Institut, JLU Gießen)
9/4/18, 3:37 PM
The PANDA detector at the future FAIR facility at GSI is planned as a fixed-target experiment for proton-antiproton collisions at momenta between 1.5 and 15 GeV/c. It will be used to address open questions in hadronic physics. In order to achieve a sufficient particle identification, two different DIRC detector concepts have been developed. This talk will cover the Endcap Disc DIRC detector...
Dr
Andreea Oprea
("Horia Hulubei” National Institute for Physics and Nuclear Engineering (IFIN-HH), Bucharest, Romania)
9/4/18, 3:41 PM
Preliminary alpha capture cross sections on Sr at energies close to the Gamow window will be presented. The cross sections were measured by means of the activation method using an alpha beam delivered by the Bucharest IFIN-HH 9MV tandem accelerator. The induced activities were measured with two large volume HPGe detectors in close geometry placed in a low background passive shielding. The...
Prof.
Anthony Cowley
(Stellenbosch University)
9/4/18, 3:45 PM
Studies of the surface of heavy nuclei provides information on the equation of state (EoS) at densities lower than the nuclear saturation density [1, 2]. At these low densities cluster correlations are predicted, with alpha clusters being of special interest. The isotopes of Sn are convenient examples for an experimental test of predictions from a generalized relativistic density functional...
Mr
Tibor Norbert Szegedi
(MTA Atomki)
9/4/18, 3:58 PM
Alpha-nucleus optical model potentials (OMP) are widely used in nuclear reaction network calculations aiming at the study of the gamma-process [1] and the weak r-process [2]. Considerable theoretical and experimental effort has been devoted in recent years to improve the knowledge of the OMP’s in order to give correct predictions for the cross sections and reaction rates [3,4] (and references...
Susan Schadmand
(Forschungszentrum Juelich)
9/4/18, 4:05 PM
Electromagnetic transition form factors are determined via meson decays into final states with dileptons. Form factors are evaluated as a function of the momentum transfer which is identical to the invariant mass of the dileptons. The results provide basic knowledge of the structure of hadrons and address the validity of vector meson dominance. Transition form factors are of renewed interest...
Dr
Mihaela Paraipan
(Joint Institute for Nuclear Research Dubna Russia, Institue of Space Science Buharest Magurele Romania)
9/4/18, 4:11 PM
The superior energy efficiency of light ion beams instead of proton beams for energy production in accelerator driven systems (ADS) is demonstrated. The energy efficiency is characterized by the energy gain calculated as the ratio of the energy released in the target to the energy spent for the beam acceleration. The energy deposited in the target is obtained via Geant4 simulation. The energy...
Dr
Luna Pellegri
(University of the Witwatersrand and iThemba LABS)
9/4/18, 5:00 PM
iThemba LABS, South Africa, is a suitable laboratory for the experimental study of giant and
pygmy resonances. The K600 magnetic spectrometer is one of the few spectrometers in the
region of 30-200 MeV with high-energy resolution and the ability to perform measurements at
zero degrees. This capability enabled the study of the fines structure in giant resonances and the
role of deformation...
Jouni Suhonen
9/4/18, 5:00 PM
The atomic nuclei serve as fento-scale laboratories for a plethora of processes relevant for fundamental physics of neutrinos and dark matter. In my talk I touch some recent hot topics in this wide and interesting field of applications of nuclear-structure methods.
Prof.
Raimond Snellings
(Utrecht University)
9/4/18, 5:00 PM
Dr
Oana Ristea
(University of Bucharest, Faculty of Physics)
9/4/18, 5:25 PM
In heavy-ion collisions, the differences in shape between the positive and negative pion transverse momentum spectra at low pT can be used to study the Coulomb final-state interaction. The produced charged particles are moving in a Coulomb field generated by the positive net-charge of the stopped participant protons. The charged pions, as the most abundantly produced and lightest species, are...
Dr
Johan Messchendorp
(KVI-CART/University of Groningen)
9/4/18, 5:25 PM
A status report on XYZ states is shown and the last results by BESIII are reported.
The present data on the hidden charm candidate, the Y(4660), are discussed, in particular BESIII data close to the Λc-Λcbar threshold in comparison with Belle data.
Future BESIII plans are also reported.
Alexander Albert Skawran
(Paul Scherrer Institut, Villigen, ETH Zürich, Switzerland)
9/4/18, 5:30 PM
Muonic atoms as laboratories for fundamental physics provide crucial input to QED, the weak and strong interaction.
Muonic atom spectroscopy, i.e. the detection of the muonic X-rays emitted subsequently to the atomic capture of a negative muon, has been a very extensively used technique to determine the extent of the nuclear charge radii [1]. This method complements the knowledge from...
Dr
Kai Neergård
(unaffiliated)
9/4/18, 5:40 PM
The RPA-amended Nilsson-Strutinskij theory, which successfully describes the pattern of binding energies of nuclei with approximately equal neutron number N and proton number Z and the energy differences between the lowest state with isospins T = 0 and 1, respectively, in the doubly odd N = Z nuclei [1,2], is applied to the Sn isotopic chain. In this theory, a pair-vibrational correlation...
Dr
Anders Knospe
(The University of Texas at Austin)
9/4/18, 5:43 PM
Light-flavor hadrons, which consist of up, down, and strange valence quarks, can be used to study many different properties of ion-ion collisions. An overview of light-flavor hadron measurements performed with the ALICE detector will be presented, including measurements in pp collisions from 0.9 to 13 TeV, p-Pb collisions at 5.02 and 8.16 TeV, Pb-Pb collisions at 2.76 and 5.02 TeV, and new...
Dr
Mikhail Barabanov
(Joint Institute for Nuclear Research)
9/4/18, 5:50 PM
The spectroscopy of charmonium-like mesons with masses above the 2mD open charm threshold has been full of surprises and remains poorly understood. The currently most compelling theoretical descriptions of the mysterious XYZ mesons attribute them to hybrid structure with a tightly bound cc\bar diquark or cq(cq')\bar tetraquark core that strongly couples to S-wave DD*\bar molecular-like...
Mr
Daniele Brugnara
(Università di Padova, INFN Laboratori Nazionali di Legnaro)
9/4/18, 6:00 PM
The competitive double gamma decay is a process which can be explained by the second order QED theory together with the knowledge of the nuclear structure of the decaying nucleus, making its study interesting under many aspects. Aside from the theoretical interest on this rare process, it also holds an experimental appeal as its low branching ratio puts to test all current measuring...
Monica Bertani
(LNF - Frascati (Italy))
9/4/18, 6:10 PM
A status report on Baryon Timelike Form Factors is shown and the last results by BESIII are reported. Unexpected features are enlightened, like: oscillations in the
e+ e- -> ppbar cross section energy behaviour, a jump in the e+ e- Lambda_c Lambda_cbar cross section at threshold, like in the case of e+ e- ->ppbar, as well as a jump in the
e+ e- ->Lambda Lambda_bar cross section close...
Ádám Nagy
(Institute for Nuclear Research, Hungarian Academy of Sciences (MTA Atomki), Debrecen Hungary)
9/4/18, 6:10 PM
Serious efforts have been made to find particles related to dark matter. According to theoretical predictions, a (10 MeV-1 GeV) light particle is expected (hereinafter called X-boson), which mediates the interaction between dark particles.
Krasznahorkay et. al. have succesfully investigated the X→e−e+ mode [1]. They excited the EX = 17.6 MeV and EX = 18.15 MeV states of 8Be and measured...
Mr
Luciano Libero Pappalardo
(FE)
9/4/18, 6:20 PM
LHCb is a fully instrumented forward spectrometer at the LHC with a pseudorapidity coverage 2<eta<5 designed for the study of hadrons containing b and c-quarks in pp collisions. The forward acceptance and its instrumentation for high-precision vertex reconstruction, tracking and particle identification allow for unique studies in heavy-ion collisions. Furthermore, a system for noble gas...
Prof.
Gerda Neyens
(KU Leuven)
9/5/18, 9:00 AM
High-resolution laser spectroscopy at ISOLDE gives access to properties of nuclear ground states and long-lived (> 10 ms) isomeric states of radioactive nuclei far from stability, such as nuclear spins, nuclear magnetic and quadrupole moments and charge radii [1]. These fundamental properties of exotic nuclei provide important information for the investigation of the nuclear structure in...
Dr
Nadezda Smirnova
(Centre d'Etudes Nucléaires de Bordeaux-Gradignan)
9/5/18, 9:30 AM
The isospin symmetry is a useful symmetry in nuclear physics, which provides
important guidelines for the construction of the nucleon-nucleon interaction and
can largely simplify the formalism of some nuclear structure models.
However, it is an approximate symmetry, broken due to the up and down quark mass
difference and electromagnetic interactions between the quarks.
Experimental...
Dr
Emmanuel Clement
(GANIL)
9/5/18, 10:00 AM
The AGATA campaign started in 2015 at the GANIL Facility - Caen, France. High resolution gamma -ray spectroscopy is since performed with unprecedent sensitivity using the heavy ions beams provided by the CSS cyclotron complex. The european tracking array was coupled to ancillaries such as the VAMOS magnetic spectrometer, the high efficiency PARIS LaBr3 array and several devices for nuclear...
Prof.
Norbert Pietralla
(TU Darmstadt)
9/5/18, 11:00 AM
Electromagnetic (EM) coupling is small compared to hadronic interaction. Reaction cross
sections of EM probes with nuclei can be, therefore, calculated perturbatively and are in principle
under control to any desired precision. EM probes are, thus, well appreciated for being best
suited for precision studies of nuclear structure. They have signicantly contributed to our
understanding of...
Prof.
Pawel Danielewicz
(Michigan State University)
9/5/18, 11:30 AM
On account of symmetry energy dropping with density, nuclear isovector density extends farther out than the isoscalar density, leading to an isovector aura surrounding a nucleus. The faster the drop of the symmetry energy and energy of neutron matter with density, the thicker the aura. The width and sharpness of the aura can be assessed by simultaneously analyzing elastic scattering and...
Dr
Elzbieta Stephan
(University of Silesia, Institute of Physics)
9/5/18, 1:00 PM
Reactions in three-nucleon systems at intermediate energies, between 50 and 200 MeV/nucleon, attract attention due to theoretically predicted sensitivity of the observables to subtle effects of the dynamics beyond the pairwise nucleon-nucleon force, so-called three nucleon force (3NF). Precise measurements in the sector of elastic nucleon-deuteron scattering show importance of 3NF for...
Nunzia Simona Martorana
(INFN-LNS and Università degli Studi di Catania)
9/5/18, 1:00 PM
The low-energy E1 strength, known as Pygmy Dipole Resonance (PDR) is an excitation mode connected to the neutron excess in nuclei. This mode is carrying few per cent of the isovector Energy Weighted Sum Rule (EWSR) and it is predicted to be present in all stable nuclei with neutron excess
and in particular for unstable nuclei [1,2]. The study of this mode and the knowledge about the structure...
Dr
Fabiana Gramegna
(INFN LNS)
9/5/18, 1:00 PM
SPES (Selective Production of Exotic Species) is the INFN project aimed to build a facility for Nuclear Physics studies with Radioactive Ion Beam (RIB). The facility is under construction at the INFN Legnaro National Laboratories and it will provide mostly neutron-rich exotic beams originating by fission fragments produced by an intense proton beam on a direct UCx target. The RIB project is...
Mr
Mohammad Taqy Bayat
(KVI-CART, University of Groningen, Groningen, The Netherlands)
9/5/18, 1:18 PM
Polarization observables in the proton-deuteron break-up reaction are sensitive probes to investigate the spin structure of the nucleon-nucleon and three-nucleon forces. A measurement of the analyzing powers for the 2H (p,pp)n break-up reaction was carried out at KVI exploiting a polarized-proton beam produced in an atomic-beam type polarized ion source [1] at a proton-beam energy of 135 MeV....
Dr
Paul Constantin
(ELI-NP/IFIN-HH)
9/5/18, 1:18 PM
The upcoming advancement of the ELI-NP project into its operational phase will offer to the nuclear physics community access to two new photon installations: a high-power laser system and a high-brilliance gamma beam system, which can be used together or separately.
One of the experimental setups proposed at the gamma beam system is an IGISOL facility [1] which will generate a Radioactive...
Dr
Carlos Paradela
(European Commission, Joint Reseach Center JRC, Directorate G - Nuclear Safety & Security)
9/5/18, 1:30 PM
Neutron-induced reactions can be used to study the properties of nuclear materials in the field of nuclear safeguards and security. The elemental and isotopic composition of these materials can be determined by using the presence of resonance structures in the reaction cross sections as fingerprints. This idea is the basis of two non-destructive analytical techniques which have been developed...
Mr
Gabriele Carozzi
(INFN - LNL)
9/5/18, 1:30 PM
In the last years, in the field of nuclear physics, there has been a large interest in the study of exotic nuclei far from stability. This new quest prompted the development of new research facilities that employ radioactive ion beams (RIBs). One example of these new endeavors is the SPES facility at Laboratori Nazionali di Legnaro in Legnaro (Italy). In order to make the best use of these new...
Izabela Skwira-Chalot
(University of Warsaw)
9/5/18, 1:36 PM
The dynamics of the three-nucleon system can be very extensively tested
by means of the deuteron-proton breakup reaction. Experimental studies
of the dp system exposes various dynamical ingredients, like three-nucleon force (3NF) and Coulomb force, which play an important role in correct description of observables (e.g. cross section). It is worth to underline that experiments with polarized...
Prof.
Katarzyna Słabkowska
(Faculty of Chemistry, Nicolaus Copernicus University in Toruń)
9/5/18, 1:45 PM
The main objective of this study is to determine the optimal conditions for a detailed knowledge of the nuclear excitation by electron capture (NEEC) process for selected nuclear isomers (i.e. metastable exited states of atomic nuclei) of a few elements. The part of these research focuses on the especially interesting and important case of NEEC process for the 93mMo isomer (T1/2 ~ 6.8 h), for...
Prof.
Francis Cucinotta
(University of Nevada Las Vegas)
9/5/18, 1:50 PM
National space agencies and commercial companies continue to develop plans for long-term space missions outside the protection of the Earth's magnetosphere. An important concern for astronauts participating in these missions are the health effects from galactic cosmic rays (GCR). The GCR consist of protons, helium, and heavy ions with energy spectrum peaking at a few hundred MeV/nucleon,...
Mr
Reza Ramazani-Sharifabadi
(KVI-CART,University of Groningen, Groningen, The Netherlands)
9/5/18, 1:54 PM
We present measurements of differential cross sections and analyzing powers for the elastic
2H(~d, d)d scattering process. The data were obtained using a 130 MeV polarized deuteron beam
impinging a liquid-deuterium target. The experiments were conducted at the AGOR facility at KVI
using the BINA 4π-detection system. Our measurements are compared to results of previous studies
and with...
Prof.
Kairat Kuterbekov
(L.N.Gumilyov Eurasian National University)
9/5/18, 2:00 PM
The present work aims to a report on the experimental and theoretical achievements obtained over the last decade in the study of (11Li+Be-isotopes) -reactions. We also carried out a comparative analysis of theoretical approaches in the study of scattering reaction and direct reaction (stripping, pick-up) of these systems, since they play a role in astrophysical processes. We have considered...
Angelina Rusnok
(University of Silesia)
9/5/18, 2:12 PM
Research in the domain of few-nucleon systems is the basis for understanding of nuclear interactions and properties of nuclei.
The precision theoretical calculations for three nucleon systems should be confronted with a rich set of systematic experimental data. For this purpose a series of measurements of deuteron breakup in collision with proton was conducted in KVI Groningen and FZ-Jülich....
Dr
Pär-Anders Söderström
(ELI-NP)
9/5/18, 2:13 PM
The Extreme Light Infrastructure - Nuclear Physics in Bucharest-Magurele, Romania, is a major European undertaking with the aim of constructing a facility that can produce the worlds highest intensity laser beams as well as unique high-brilliance, narrow-bandwidth gamma-ray beams using laser-based inverse Compton scattering.
One of the main instruments being constructed for the nuclear...
Prof.
Bogdan Fornal
(Institute of Nuclear Physics, Polish Academy of Sciences (IFJ PAN))
9/6/18, 10:00 AM
The phenomenon of shape isomerism, being the best example of shape coexistence in nuclei, is related to the existence of a high barrier in the nuclear potential energy surface (PES), separating the primary energy minimum (the ground state) from a secondary energy minimum at large deformation. Shape isomers at spin zero have clearly been observed, so far, only in actinide nuclei - they decay...
Dr
Andrea Jungclaus
(Instituto de Estructura de la Materia, CSIC)
9/6/18, 11:00 AM
In this talk the progress achieved in recent years in the understanding of the structure of nuclei in the vicinity of 132Sn, the heaviest doubly-magic nucleus far-off stability accessible for experimental studies, will be reviewed. It will be discussed how the results obtained using a variety of complementary experimental techniques employed in several leading laboratories in the field of...
Prof.
Klaus Kirch
(ETHZ & PSI)
9/6/18, 11:30 AM
Precision experiments with high intensities of particles determine input parameters needed to describe the known interactions. They are also uniquely sensitive to physics beyond the highly successful Standard Model of particle physics, both, to very high and to very light new particles likely out of reach for direct production experiments. Last but not least they present the most sensitive...
Dr
David Lhuillier
(CEA-Saclay)
9/6/18, 12:00 PM
The publication of the reactor antineutrino anomaly has revived the search for a sterile neutrino state at the 1 eV mass scale. A large experimental program is ongoing to search for a new oscillation pattern in the disappearance of electronic antineutrinos at short distance from nuclear cores. We will review the different measurements with emphasis on the complementary detection technologies...
Dr
Masaki Hori
(Max Planck Institute for Quantum Optics)
9/6/18, 2:00 PM
The ASACUSA collaboration at CERN's Antiproton Decelerator has precisely measured the atomic transition frequencies of antiprotonic helium by laser spectroscopy. These three-body exotic atoms are each composed of a normal helium nucleus, and electron, and an antiproton. They constitute baryon-antibaryon bound states with the longest known lifetime. The experiments involved cooling 2 billion...
David Jenkins Jenkins
(University of York)
9/6/18, 2:00 PM
The 12C+12C fusion reaction is one of the key reactions governing the evolution of massive stars as well as being critical to the physics underpinning various explosive astrophysical scenarios [1]. Our understanding of the 12C+12C reaction rate in the Gamow window – the energy range relevant to the different astrophysical scenarios – is presently confused. This is due to the large number of...
Dr
Sotirios Harissopulos
(NCSR "Demokritos" - Athens)
9/6/18, 2:00 PM
Promotion of nuclear applications for peaceful purposes and related capacity building is among the missions of the IAEA. In this context, accelerator applications and nuclear instrumentation is one of the thematic areas, where the IAEA supports its Member States in strengthening their capabilities to adopt and benefit from the usage of accelerators. A number of activities are being implemented...
Dr
Pastore Alessandro
(University of York)
9/6/18, 2:00 PM
Any given finite-range two-body interaction can be developed by means of a simple Taylor series in momentum space.
This is the basic idea presented by Skyrme in its original paper. Truncating the Taylor series at second order in gradients, we obtain the standard Skyrme interaction (N1LO). In this talk I will discuss the truncation at 4th and 6th order in gradients and the new family of...
Dr
Simone Ceruti
(Università degli Studi di Milano INFN Milano)
9/6/18, 2:20 PM
In Nature, symmetries help us to describe a complex physical system in a simple way and to better understand its behaviour. The search for symmetries is a fundamental goal in all fields in physics. At the same time, the possible breaking of a symmetry can open the gates for new and unexpected scenarios. In a nuclear system the isospin symmetry plays a key role in nuclear structure and nuclear...
Dr
Sergio Cristallo
(INAF - Osservatorio Astronomico d'Abruzzo; INFN - Sezione di Perugia)
9/6/18, 2:25 PM
Nuclear astrophysics is an interdisciplinary field at the crossing of various branches, from experimental and theoretical studies of nuclear cross sections to stellar evolutionary models of high complexity. The physics of stellar interiors can be constrained only if the adopted inputs in stellar modelling are known with high accuracy. For the nucleosynthesis of heavy elements, neutron capture...
Mr
Ian Murray
(Institut de Physique Nucleaire, IN2P3-CNRS, Universite Paris-Sud)
9/6/18, 2:25 PM
The shell model lays an impressive foundation for broad understanding of nuclear systems. For the most exotic nuclei, universal mechanisms drive shell evolution from established structures, such as the disappearance of canonical magic numbers. The spin-isospin parts of the nucleon-nucleon interaction, and specifically, the monopole part of the tensor force between different orbits is a strong...
Dr
Matej Lipoglavsek
(Jozef Stefan Institute, Ljubljana, Slovenia)
9/6/18, 2:43 PM
We have studied the nuclear reaction d(p,gamma)He-3 in the proton energy range between 60 and 300 keV. This reaction is the second step of the primordial nucleosynthesis and our energies cover the range of energies after the Big-Bang. The reaction has previously not been studied very well in this energy range and the few existing cross section measurements do not agree with latest model...
Dr
Franck Delaunay
(LPC Caen, France)
9/6/18, 2:45 PM
Beta-decay spectroscopy is one of the most useful tools for the study of nuclear structure. In exotic nuclei beta-decay is often followed by the emission of delayed particles, a process which becomes the dominant decay channel when approaching the driplines. In the most exotic species, the emission of two or more delayed particles can also occur with a significant probability.
Whereas the...
Prof.
Valery Nesvizhevsky
(Institut Laue-Langevin)
9/6/18, 3:00 PM
Extra fundamental short-range interactions mediated by new bosons are predicted in many extensions of the Standard Model of particle physics. They are also predicted in theories with large extra spatial dimensions and theories involving the light dark matter hypothesis. To search for such interactions at different characteristic distances, the experimentalists use
many methods including...
Theresa Benyo
(NASA (National Aeronautics and Space Administration))
9/6/18, 3:00 PM
NASA Glenn Research Center (GRC) is investigating electron screened, enhanced nuclear reactions in deuterated materials exposed to bremsstrahlung photons with kinetic energies above and below the deuteron photo-dissociation energy. Recent experiments used a continuous beam Dynamitron electron accelerator with a braking target. Previously published research shows gamma spin-up evidence of...
Alberto Mengoni
(BO),
Cristian Massimi
(BO)
9/6/18, 3:37 PM
Nuclear reactions responsible for the creation and destruction of Be-7 (the progenitor of Li-7), during Big Bang Nucleosynthesis (BBN), play the key role in the determination of the resulting primordial abundance of Li-7, the third chemical element formed during the very early phase of evolution of the Universe. Current standard BBN models predict a Li-7 abundance which is a factor of 2-3...
Dr
Natalia Timofeyuk
(University of Surrey)
9/6/18, 3:45 PM
In the last two decades rapid advances have been made in the implementation of the three-nucleon force (3NF) in nuclear structure calculations and its importance for various nuclear properties has been demonstrated. However, another large branch of nuclear physics – direct nuclear transfer reactions - is still based exclusively on Hamiltonians with two-body interactions only. These reactions...
Stefan Reinicke
(Helmholtz-Zentrum Dresden-Rossendorf, Technische Universität Dresden)
9/6/18, 3:55 PM
The 12C(p,γ)13N reaction is relevant in several astrophysical scenarios, such as the early stages of the Bethe-Weizsäcker cycle of hydrogen burning and the production of 13C in stars on the asymptotic giant branch of the Hertzsprung-Russell diagram. Here new data on the 12C(p,γ)13N astrophysical S-factor at low energy, 0.1-0.5 MeV in the center of mass system are reported from an experiment in...
Prof.
Viacheslav Samarin
(Flerov Laboratory of Nuclear Reactions, the Joint Institute for Nuclear Research)
9/6/18, 4:05 PM
The dynamical approach based on numeric solution of the time-dependent Schrödinger equation [1 3] was applied to the description of adiabatic and diabatic rearrangement of nucleons in reactions of light nuclei 3,6He, 9,11Li with heavy nuclei. For example, adiabatic and diabatic evolution of the probability density for the protons of the 3He nucleus in the collision with the 45Sc nucleus is...
Silvia Traversi
(INFN Ferrara)
9/6/18, 4:13 PM
Binaries Neutron Stars (NSs) mergers can provide many constraints about
stellar composition because the evolution and features of these processes
strongly depends on the Equation Of State (EOS) of NSs. Indeed, the time
of the collapse after the merger, for given masses, is determined by the
softness of the EOS. Moreover, the process results in the ejection of
matter, both during the...
Prof.
Joaquin Gomez Camacho
(CNA)
9/6/18, 5:00 PM
The study of the structure of normal, well bound nuclei, can be carried out by populating discrete excited states in a reaction, and studying their gamma decay. Here, the nuclear reaction is just a mechanism to populate excited states, whose properties such as energy and decay probabilities are independent of the reaction that produced it. Exotic nuclei, weakly bound, have few (if any)...
Xinyu Shan
(University of Science and Technology of China)
9/6/18, 5:00 PM
The BESIII experiment at BEPCII accumulated the world's largest e+e- collision samples at 3.773 and 4.178 GeV. In (semi-)leptonic decay aspect, we have studied the purely leptonic decays D+ -> tau+v and D_S+->mu+v, and the semi-leptonic decays of D0 to K(pi)- mu+v, D+ -> pi0 mu+v, D+(_S) -> eta(') ev and D_S+->K(*)0 e+v. We will report the improved measurements of the branching fractions of...
Dr
Carmen Angulo
(SCK•CEN, Belgian Nuclear Research Centre)
9/6/18, 5:00 PM
MYRRHA is conceived as an Accelerator Driven System (ADS).It consists of a proton linear accelerator (linac) of 600 MeV, a spallation neutron source and a nuclear core cooled by liquid Lead-Bismuth (LBE). The 600 MeV accelerator of MYRRHA is a high intensity proton machine, delivering a proton beam on a spallation target. The high-energy protons are used in this target to create neutrons by...
Prof.
Henryk Witala
(Jagiellonian UNiversity)
9/6/18, 5:05 PM
Comparison of theoretical predictions based on a nucleon-nucleon potential with data for elastic nucleon-deuteron (Nd) scattering and nucleon
induced deuteron breakup reveals the importance of a three-nucleon
force (3NF). Inclusion of semi-phenomenological 3NF models, such as Tucson-Melbourne or Urbana IX, into calculations in many cases improves the data description. However, some serious...
Dr
Judith McGovern
(The University of Manchester)
9/6/18, 5:20 PM
The scalar and spin electromagnetic polarisabilities of the proton and neutron are still not particularly
well determined by Compton scattering experiments, with uncertainties ranging from somewhat less that
10% to over 100%. In the absence of free neutron targets, neutron properties must be extracted from light
nuclei, particularly the deuteron and 3He, but that requires a good...
Prof.
Viacheslav Samarin
(Flerov Laboratory of Nuclear Reactions, the Joint Institute for Nuclear Research)
9/6/18, 5:23 PM
The probability densities for the ground states of 3H, 3,4,6He, 9Be nuclei were calculated in Refs. [1, 2] by Feynman’s continual integrals method in imaginary (Euclidean) time [3, 4]. The present work is devoted to studying other light nuclei 6,7,9,11Li, 6,10Be using the same approach. For example, the probability density for the 6Li nucleus is shown in Figure. The correctness of calculations...
Dr
Andrzej Wilczek
(Institute of Physics, University of Silesia)
9/6/18, 5:41 PM
Even though the development of the theories providing a precise description of few-nucleon interactions is well advanced, certain inconsistencies between experimental data and theoretical predictions are still to be resolved. One of the most intriguing discrepancies observed in the proton-deuteron breakup reaction is known as the Space Star Anomaly [1]. It concerns a very special geometrical...
Prof.
Valentin Nesterenko
(BLTP, Joint Institute for Nuclear Research, Dubna, Moscow region, Russia)
9/6/18, 5:45 PM
Last years the toroidal dipole resonance (TDR) attracts a high attention [1-4]. This mode is located at the energy of the pygmy dipole resonance and forms the low-energy part of the isoscalar giant dipole resonance. The TDR has many remarkable properties. This is the only known dipole vortical mode in the family of intrinsic electric excitations. The TDR is perhaps the origin of the pygmy...
Mr
Edoardo Mornacchi
(University of Mainz)
9/6/18, 5:50 PM
The electric (αE1) and magnetic (βM1) scalar polarizabilities describe the response of the nucleon to an applied electric or magnetic field. They are not only fundamental properties related to the internal structure and dynamics of the nucleon, but they are important also in other areas of physics, such as atomic structure. The values of αE1 and βM1 quoted by the Particle Data Group were...
Francisco Ogallar Ruiz
(University of Granada)
9/6/18, 5:50 PM
The n_TOF Collaboration, neutron time-of-flight, is the spallation neutron source facility located at the European Organization for Nuclear Research (CERN) based on a 20 GeV/c proton beam impinging on a lead target. n_TOF is a unique facility in the world due to the state-of-the-art of detectors, the data acquisition system and the characteristics of its neutron beam, i.e., high instantaneous...
Ms
Hajar Tavakolizaniani
(PhD student)
9/6/18, 5:59 PM
A detailed description of nuclear forces is essential for understanding the properties of nuclei and the dynamics in few-nucleon scattering processes. The need for an additional three-nucleon potential became evident when comparing three-body scattering observables and light-nuclei binding energies with state-of-the-art calculations[1].
In this work, the analyzing powers (Ax and Ay) and...
Prof.
Cristiana Oprea
(JINR)
9/6/18, 6:10 PM
The fission process induced by gamma quantas up to 25 MeV energy on 238U was analyzed. Experimental observables as cross sections, fragments mass distribution yields of some nuclides of interest and average prompt neutrons multiplicity characterizing 238U photofission were theoretically evaluated by using TALYS-1.9 software. Also results for the theoretical evaluations of isomer ratios using...
Mr
Andrey Zaitsev
(Christianity)
9/6/18, 6:35 PM
Events of dissociation of relativistic nuclei in nuclear track emulsion (NTE) allow a holistic investigation of “cold” ensembles of lightest nuclei. So far, with regard to fine structure dissociation of relativistic nuclei, the NTE technique remains the only means providing unique completeness of such observations at the best angular resolution and as well as a sufficient statistical...
Prof.
Anna Mackova
(Nuclear Physics Institute of the Czech Academy of Sciences)
9/7/18, 9:00 AM
There has been enormous progress in the use of nuclear physics techniques to study, characterize and preserve cultural heritage objects and artefacts. This expert review, published by the Nuclear Physics Division of the European Physical Society (EPS), seeks to provide the public with a popular and accessible account of the latest developments in this field. The contributions from a range of...
Dr
Anu Kankainen
(University of Jyväskylä)
9/7/18, 9:30 AM
Nuclear masses reflect sensitively changes in nuclear structure, such as shell closures, pairing effects or onset of deformation. The masses are also one of the key inputs for nuclear astrophysics, and structural changes are reflected in the calculations. The recent observation of GW170817 [1] from a merger of two neutron stars and the associated kilonova manifested that a broad range of...
Sandra Zavatarelli
(GE)
Prof.
Henryk witala
(Jagiellonian University)
Comparison of theoretical predictions based on a nucleon-nucleon potential with data for elastic nucleon-deuteron (Nd) scattering and nucleon
induced deuteron breakup reveals the importance of a three-nucleon
force (3NF). Inclusion of semi-phenomenological 3NF models, such as Tucson-Melbourne or Urbana IX, into calculations in many cases improves the data description. However, some serious...
Mr
Tibor Norbert Szegedi
(University of Debrecen)
Prof.
Peter Schuck
(Institut de Physique Nucleaire Orsay)
Alpha clustering in nuclear systems has known an extraordinary growth in activity over the last 15 years or so. I have strongly participated in the theoretical developments of alpha clustering and with my collaborators I have for example proposed that the Hoyle state in 12C can be considered as an alpha particle condensate. This theory explains all known data of the Hoyle state, for instance...
Dr
Andreea Oprea
("Horia Hulubei” National Institute for R&D in Physics and Nuclear Engineering (IFIN-HH), Bucharest, Romania)
Dr
Andreas Wagner
(Helmholtz-Zentrum Dresden-Rossendorf)
Recent advances in detector developments, accelerator technology, and demands in medical treatments have driven intense knowledge transfer and applications of nuclear physics techniques towards societal relevant areas like particle tumor therapy, future energy production, astrophysical and materials research. In the contribution some selected examples will be presented regarding these areas....
Valery Nesvizhevsky
Dr
Federico Pinna
(Politecnico di Torino and INFN)
Dr
Elzbieta Stephan
(University of Silesia, Institute of Physics)
Catalin Frosin
(FI)
Angelina Rusnok
(University of Silesia)
Federico Ferraro
(GE)
Dr
Roman Sagaidak
(JINR)
Prof.
Viacheslav Samarin
(Flerov Laboratory of Nuclear Reactions, the Joint Institute for Nuclear Research)
Izabela Skwira-Chalot
(University of Warsaw)
Silvia Traversi
(FE)
Katarzyna SŁABKOWSKA
Gabor Kiss
(RIKEN Nishina Center)
Alberto Camaiani
(FI)
Prof.
Tetyana Galatyuk
(TU Darmstadt / GSI)
Prof.
Tetyana Galatyuk
(TU Darmstadt / GSI)
Prof.
Tetyana Galatyuk
(TU Darmstadt / GSI)
Alberto Mengoni
(BO)
Dr
Pietro Ottanelli
(Universita' di Firenze and INFN Firenze)
Mr
Denis Artemenkov
(JINR)
Mr
Mohammad Taqy Bayat
(PhD student)
Dr
Paolo Cardarelli
(INFN Ferrara)
Dr
Andrea Festanti
(CERN)
Mr
Clément Delafosse
(IPN Orsay - Univ. Paris Sud/CNRS)
Mr
Víctor Vaquero Soto
(CSIC)
Silvia Piantelli
(FI)
Dr
Stefano Piano
(TS)
Franco Galtarossa
(LNL)
Franco Galtarossa
(LNL)
Dr
Anders Knospe
(The University of Texas at Austin)
Stefan Reinicke
(Helmholtz-Zentrum Dresden-Rossendorf)
Annamaria Mazzone
(BA)
Elisa Pirovano
(PTB)
Dr
Luna Pellegri
(University of the Witwatersrand and iThemba LABS)
Dr
Oana Ristea
(University of Bucharest, Faculty of Physics)
Sergio Cristallo
(PG)
Hajar Tavakolizaniani
(PhD student)
Prof.
Anna Mackova
(Nuclear Physics Institute of the Czech Academy of Sciences)
Alexander Skawran
Nunzia Simona Martorana
(LNS)
Dr
Svetlana Chesnevskaya
(IFIN-HH (ELI-NP))
Dr
Maksym Zyzak
(GSI Helmholtzzentrum für Schwerionenforschung GmbH)
Dr
Daniele Brugnara
(Student)
Dr
Pär-Anders SÖDERSTRÖM
(ELI- NP)
Mr
Reza Ramazani-Sharifabadi
(PhD student)
Prof.
Itzhak Tserruya
(Weizmann Institute of Science)
Prof.
Itzhak Tserruya
(Weizmann Institute of Science)
Simone Rodini
(PV)
Livio Lamia
(LNS)
Prof.
Anthony Cowley
(Stellenbosch University)
Dr
Kai Neergård
(unaffiliated)
Dr
Sebastiana Maria Puglia
(INFN -LNS)
Mr
Ian Murray
(Institut de Physique Nucleairé, IN2P3-CNRS, Université Paris-Sud)
Dr
Cristian Massimi
(INFN Bologna)
Dr
Umberto Battino
(University of Edinburgh)
Prof.
Viacheslav Samarin
(Flerov Laboratory of Nuclear Reactions, the Joint Institute for Nuclear Research)
Miguel Ángel Escobedo Espinosa
(University of Jyväskylä)
Gabriele Gaetano Fronzé
(TO)
Mr
Gabriele Carozzi
(INFN - LNL)
Mr
Gabriele Carozzi
(INFN - LNL)
Dr
Paul Constantin
(ELI- NP / IFIN- HH)
Dr
Esra Yüksel
(Department of Physics, Faculty of Science, University of Zagreb, Croatia, Department of Physics, Yildiz Technical University, 34220 Esenler, Istanbul, Turkey)
Dr
Mustafa Schmidt
(II Physikalisches Institut, JLU Giessen)
Dr
Miguel Macias Martinez
(University of Seville - Centro National de Aceleradores)
Dr
Andrzej Wilczek
(University of Silesia, Katowice, Poland)
Dr
Ivan Ravasenga
(Politecnico di Torino adn INFN Torino)
Dr
Natalia Timofeyuk
(University of Surrey)
Prof.
Valentin Nesterenko
(Joint Institute for Nuclear REsearch)
Mr
Thomas Chillery
(University of Edinburgh)
Prof.
Kairat Kuterbekov
(L.N.Gumilyov Eurasian National University)