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Ali Al-Adili, Andreas Ekström05/05/2026, 09:00
Welcome to the 15th Nordic Meeting on Nuclear Physics
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Arjan Koning (IAEA)05/05/2026, 09:20invited
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Sunniva Siem (University of Oslo)05/05/2026, 09:45invited
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Sandipan Dawn (Uppsala University)05/05/2026, 10:10contributed 15+5
Reactor dosimetry relies on accurate nuclear cross-section data. Activation foils are often the only practical way to measure neutron flux inside a reactor core or near structural components where active detectors cannot survive. Threshold reactions with different energy sensitivities allow unfolding of the neutron spectrum. The high-energy tail is particularly relevant for fusion-fission...
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Gillis Carlsson (Matematisk fysik, Lunds Universitet)05/05/2026, 11:00
Accurate nuclear data are essential for simulations of new types of reactors and to deepen our understanding of the cosmos. The nuclear density-functional theory (DFT) has been developed to provide high accuracy binding energies and bulk properties of nuclei all over the nuclear chart. The quest to move from bulk properties to detailed spectroscopic information and reaction observables...
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Joonas Kalervo Ojala (University of Jyvaskyla (FI))05/05/2026, 11:25contributed 15+5
Shape coexistence is a phenomenon in which multiple shapes occur within the same nucleus. Although this phenomenon has been proposed to exist in various regions of the nuclear chart [1], neutron‑deficient Pb isotopes near the N=104 mid‑shell have been a primary focus of study for several decades. Notably, the neutron‑deficient $^{186}$Pb isotope exhibits three distinct shapes [2–5] at low...
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Rafael Antonio Lopez (Lund University)05/05/2026, 11:45contributed 12+3
Recent Monte Carlo Shell Model (MCSM) calculations made by T. Togashi et. al. [Phys. Rev. Lett. 121, 062501 (2018)] attempt to account for discrepancies observed between measurements and previous theoretical calculations of the reduced transition probability B(E2;$2^{+}_{1}->0^{+}_{1}$) in the neutron deficient Sn isotopes. One of the predictions of the MCSM calculation is that a shape change...
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Johannes Sørby Heines (Nuclear Physics Group, University of Oslo)05/05/2026, 12:00contributed 12+3
Strong triaxiality is rare in the nuclear chart, and such nuclei can serve as useful tests of theoretical predictions. The breaking of axial symmetry also enables phenomena which cannot occur in symmetrically deformed nuclei, making it an interesting phenomenon to study. The neutron rich region around mass 110 presents several cases of strong tiaxiality, namely in the ruthenium, molybdenum and...
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Kalle Auranen (University of Jyväskylä)05/05/2026, 12:15contributed 12+3
Since December 2020 a series of four experiments has been conducted to probe systematically the structure of all odd-A neutron-deficient actinium isotopes from $^{207}$Ac to $^{213}$Ac. In this campaign both recoil separators, RITU and MARA, of the Accelerator Laboratory of University of Jyväskylä, Finland (JYFL-ACCLAB) were employed. These experiments used fusion-evaporation reactions to...
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Prof. Stephane Pietri (GSI Helmholtzzentrum für Schwerionenforschung, Germany)05/05/2026, 14:00
By 2023 a totality of 3337 nuclides have been discovered by mankind [1] of which 445 have been discovered at GSI in its various experimental areas (FRS, SHIP, TASCA, Online Mass Separator etc..) which ranks it as a second place in worldwide discoveries. Continuing this tradition, we report in this paper of an experiment performed at the GSI in FAIR Phase-0 where new isotopes were identified...
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Pär-Anders Söderström (ELI-NP)05/05/2026, 14:25contributed 15+5
The Extreme Light Infrastructure – Nuclear Physics (ELI-NP) facility is a major European nuclear physics facility for high-power laser beamlines and a projected high-brilliance γ-ray beams with energy up to 20 MeV and a very narrow bandwidth. The scientific focus of the γ beam system will cover a broad range of topics from nuclear astrophysics to applications to basic science. One of the...
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Simon Rausch (University of Jyväskylä)05/05/2026, 14:45contributed 15+5
High-precision mass measurements of radioactive isotopes play a key role in advancing our understanding of nuclear structure and nuclear astrophysics. Nuclear masses provide direct access to binding energies and are essential inputs for testing nuclear models and studying shell evolution far from stability. Accurate masses are indispensable for modeling nucleosynthesis pathways, such as the...
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Olof Tengblad (Consejo Superior de Investigaciones Cientificas (CSIC) (ES))05/05/2026, 15:05contributed 15+5
The XT03 beamline at the HIE‑ISOLDE facility is a highly versatile station designed for a wide range of non‑permanent reaction experiments. At its focal plane, a large reaction chamber (SEC) is installed, capable of accommodating various internal detection setups. This article presents an overview of the first ten years of operation, highlighting key physics results achieved at the station.
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Johan Rathsman (Lund University)05/05/2026, 16:00invited
Coherent Elastic neutrino Nucleus Scattering at spallation sources such as the ESS, offer new exciting possibilities to study fundamental physics in a small scale experiment. There is an ongoing effort at Lund and Uppsala universities to explore these possibilities in more detail. I will present the theoretical background for CEvNS and as examples, I will describe the possibility to search for...
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Joakim Cederkall (Lund University (SE))05/05/2026, 16:25contributed 15+5
This presentation will discuss the possibility of starting a program in fundamental physics at the European Spallation Source, under construction on Lund, with a specific focus on neutrino physics. One the one hand some experimental aspects of starting a program based on Decay-at-Rest (DAR) neutrinos that are produced in the ESS spallation target without any further adjustments of the facility...
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Matthias Holl (Lund University)05/05/2026, 16:45contributed 15+5
The European Spallation Source (ESS) under construction in Lund, Sweden, is set to become the brightest cold spallation neutron source in the world. Neutrons are produced by a 2 GeV proton beam hitting a tungsten target and moderated in cold and thermal moderators.
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The HIBEAM/NNBAR program is a proposed two-stage experiment at the ESS to search for baryon number violation [1]. The primary... -
Karsten Riisager (Aarhus University)06/05/2026, 09:00
Beta decay increases in importance as a probe of nuclear structure as one moves towards the proton and neutron driplines. The decay energies increase so that more of the beta strength is available, and separation energies decrease leading to an increasing number of beta-delayed decay modes. I shall present an overview of which types of information have been extracted in light nuclei, here...
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Jeppe Schultz Nielsen (Aarhus University (DK))06/05/2026, 09:25contributed 15+5
The $\beta$-decay of $^8$He creates a significant background in antineutrino detectors based on the inverse $\beta$-decay mechanism due to the fact that it has $\beta$-delayed neutron final states and can be created by cosmic rays impinging on carbon. By providing excitation spectra and branching ratios for the $^8$He $\beta$-decay, this background can be quantified.
$^8$He is the most...
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Prof. Maria Jose G. Borge (Instituto de Estructura de la Materia, CSIC, Serrano 113bis, E-28006, Madrid, Spain)06/05/2026, 09:45contributed 15+5
The beta decay of 8B into 8Be is of interest both from nuclear structure and astrophysical point of view. For astrophysics, the 8B decay is the main source of solar neutrinos with energy higher than 2 MeV mainly coming from the intense (88%) beta branch of the 8B decay to the 3 MeV state of 8Be.
From the nuclear structure point of view, the 2+ 8B ground state is the only well-established...
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David Jenkins (University of York)06/05/2026, 10:05contributed 15+5
The teaching of nuclear physics has traditionally followed a rather rigid pedagogical perspective offering a chronological view of the evolution of the topic. Theoretical perspectives are emphasised such as the independent-particle shell model, moving on to collective models such as the rotational model. Comparison of model predictions with experimental data is frequently limited leaving the...
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Vivian Peters (KTH Royal Institute of Technology)06/05/2026, 11:00contributed 15+5
In the Swedish nuclear industry, characterization of legacy radioactive waste, produced before contemporary standards, remains a significant challenge. These waste packages often involve added complications, including concrete shielding, varying origins and lacking documentation. Because of this, traditional approaches to passive characterization may struggle.
We introduce a custom...
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Baltasar Johannes Hemmerle (University of Oslo)06/05/2026, 11:20contributed 15+5
Heat-Pipe cooled Reactors (HPRs), which were originally intended for space applications, are of particular interest for remote/autonomous operations as their designs are simple, compact, and transportable. Historically most HPR designs produce only limited thermal power in the kilowatt range and/or utilize highly enriched fuel. This work investigated how reactor design principles can be used...
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Dr Jinti Barman (Uppsala University)06/05/2026, 11:40contributed 12+3
Reliable nuclear data and well-characterized uncertainties are crucial for predictive reactor physics modeling, safety analysis, criticality assessment, and the design of advanced nuclear systems. Nuclear data uncertainties, arising from experimental measurement errors, theoretical model deficiencies, and evaluation procedures, often introduce uncertainty in key integral parameters such as the...
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Luis Gerardo Sarmiento Pico06/05/2026, 11:55contributed 12+3
A radiation detection system combining a single-sided Si strip detector
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and a HPGe-COMPEX detector module together with its anti-Compton shield was set up at Lund University for environmental sample measurements. This system enables high sensitivity alpha-beta-gamma-coincidence analysis, enhancing the identification level of radionuclides in environmental samples. A comprehensive... -
Gulla Torvund (Department of Physics, University of Oslo)06/05/2026, 12:10contributed 12+3
The findings of a study published in Annals of Nuclear Energy, June 2025, will be presented (DOI: https://doi.org/10.1016/j.anucene.2025.111641).
This study examines the novel Multi-MOX (MMOX) strategy for plutonium multi-recycling in PWRs using the CLASS fuel cycle simulation tool with assembly-level calculations. MMOX facilitates the multi-recycling of used nuclear fuel by mixing...
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Vala Valsdottir (University of Oslo)06/05/2026, 16:00contributed 15+5
Between the 1960s and early 1980s, the United States undertook the world’s largest nuclear power construction program. Early projects benefited from declining construction costs, making nuclear power economically competitive with fossil alternatives. From the early 1970s and onward, however, overnight construction costs (OCC) escalated rapidly, coinciding with regulatory tightening, high...
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Jessica Chow (NTNU)06/05/2026, 16:20contributed 15+5
This presentation will introduce SFI SAINT, an NTNU-led research project funded for the next 8 years.
"SFI SAINT will conduct research on nuclear power as a zero-emission technology for shipping, with the goal of developing, testing and scaling solutions for commercial use. The center will work on regulations, adaptation to maritime operations, energy efficiency, integration into ships,...
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Mr Josef A. H. Hisanawi (Department of Physics, University of Oslo)06/05/2026, 17:10flash 5+2
This study computationally evaluates a hybrid nuclear fuel cycle in which partially depleted fuel pebbles from a compact maritime Fluoride-salt-cooled High-temperature Reactor (FHR) are transferred to a larger terrestrial FHR for continued utilization. Neutronic behavior is analyzed using a high-fidelity Monte Carlo framework: the Hyper-Fidelity (HxF) tool models detailed depletion in the...
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Peter Karlsson (Uppsala university)06/05/2026, 17:17flash 5+2
The need for accurate nuclear data is crucial for the nuclear power industry, and with the Swedish plans to invest in new Gen IV nuclear power plants, there is a further need for new nuclear data regarding the processes involved in these new reactor concepts. Together with experimental data, simulated nuclear data is an important tool for nuclear research. The nuclear reaction code TALYS has a...
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Amit Hasan Arpon (Uppsala University)06/05/2026, 17:24flash 5+2
In nuclear engineering, a criticality event is an instance in which a chain reaction reaches a state of self-sustenance. Criticality safety involves preventing inadvertent criticality events by managing factors such as material composition, geometric configuration, and neutron interactions. Thus, the quality and success of criticality safety analyses inherently depend on how well nuclear data,...
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ASLI KUŞOĞLU (ELI-NP/IFIN-HH)06/05/2026, 17:31flash 5+2
Extreme Light Infrastructure – Nuclear Physics, Horia Hulubei National Institute for R&D in Physics and Nuclear Engineering, 30 Reactorului Street, 077125 Magurele, Romania
In the period 2022-2025, four experimental campaigns were carried out at the 9 MW tandem accelerator of IFIN-HH using the large-volume LaBr$_3$:Ce and CeBr$_3$ detectors of the ELIGANT-GN array, which were placed in the...
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Jacob Persson (Uppsala universitet)06/05/2026, 17:38flash 5+2
Recent research suggests that neutron fluctuations in combination with feedback effects might have a non-negligible impact on the neutron distribution in nuclear reactors. This phenomenon can be analysed with statistical physics by using methods from quantum field theory. In this presentation, I will give an overview of previous research and our plan for how to improve the theoretical model....
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Björn Johansson (Aarhus University (DK))06/05/2026, 17:45flash 5+2
As experiments often are complex, simulations are a helpful tool in
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designing experimental setups and subsequent analysis. There already
exists many Monte Carlo simulation programs to simulate the physics.
However, a method to convert the simulated data to mimic the DAQ
output removes the need to use measured data to test the analysis
software. This makes it possible to prepare the... -
Anu Kankainen (University of Jyväskylä)07/05/2026, 09:00
Nuclear masses are key inputs for r-process calculations. With JYFLTRAP double
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Penning trap at the IGISOL facility in the JYFL Accelerator Laboratory, we have recently
determined masses for dozens of neutron-rich nuclei and their isomeric states, see e.g.
[1-6]. With the phase-imaging ion-cyclotron resonance technique, it is possible to
resolve long-lived isomeric states with low... -
wanja paulsen (university of Oslo)07/05/2026, 09:25
The triple-alpha process is one of the most fundamental processes in stellar nucleosynthesis, entailing the fusion of three helium nuclei to form $^{12}$C. At temperatures between 0.1 - 2 GK, the triple-alpha reaction is almost exclusively mediated by the Hoyle state in $^{12}$C [1]. Accurate measurements of the radiative width of the Hoyle state is important for understanding the production...
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Dr Maria Markova (University of Oslo)07/05/2026, 09:50
The pygmy dipole resonance (PDR) is commonly associated with excess $E1$ strength superimposed on the low-energy tail of the giant dipole resonance (GDR), near the neutron-separation energy in both stable and unstable heavy nuclei. Although its detailed structure, properties, and origin remain under debate, the neutron-skin oscillation picture still prevails, suggesting a dependence of the PDR...
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Andreas Heinz (Chalmers University of Technology)07/05/2026, 10:50invited
The use of radioactive beams in inverse kinematics has a strong impact on nuclear physics research and nuclear fission is no exception. Nuclear fission is a quite complex process with a large number of observables, such as fission fragment charge and mass distributions, multiplicities and energies of evaporated neutrons and gamma-rays, released total kinetic energy, fission cross sections and...
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Andreas Solders07/05/2026, 11:15contributed 15+5
Isomeric yield ratios (IYRs) are key observables in nuclear fission, as they provide insight into the angular-momentum distribution of primary fission fragments. Accurate IYR data are also essential for modeling the r-process in stellar nucleosynthesis and for determining the antineutrino mixing angle from reactor spectra. In addition, IYRs play a role in nuclear-energy applications, including...
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Neeraj Kumar (Norwegian Nuclear Research Centre (NNRC), University of Oslo)07/05/2026, 11:35contributed 15+5
The Oslo Cyclotron Laboratory (OCL) at the University of Oslo is developing a comprehensive experimental program focused on advancing our understanding of nuclear fission. Leveraging the existing cyclotron infrastructure and state-of-the-art detection systems such as OSCAR [1, 2], this program aims to investigate prompt fission gamma emission and the interplay between nuclear structure and...
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Maria Vittoria Managlia (Chalmers University of Technology)07/05/2026, 11:55contributed 12+3
The study of nuclear fission remains a critical area of research, not only for advancing our understanding of fundamental nuclear processes but also for its implications in the synthesis of heavy elements in astrophysical environments. In the context of r-process nucleosynthesis, fission plays a pivotal role by limiting the mass of nuclei that can be produced. However, data on the fission...
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Marius Torsvoll (University of Oslo)07/05/2026, 12:10contributed 12+3
In this work we report on a fission yield experiment done with the LOHENGRIN recoil mass spectrometer. Understanding the dynamics of nuclear fission requires accurate knowledge of the charge and mass distributions of fission fragments, particularly in rare and poorly studied regions. We present a dedicated investigation of the assymetric fission yields in 233U(n$_{th}$,f), targeting fragment...
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You Zhou (Niels Bohr Institute (DK))07/05/2026, 14:00
One of the central challenges in nuclear physics is achieving a precise understanding of the structure of the atomic nucleus. Recent developments have shown that relativistic nuclear collisions at RHIC and the LHC can complement low‑energy nuclear experiments by providing a snapshot of the nuclear shape at the moment of collision, offering a sensitive probe of nuclear structure.
In this...
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Henna Kokkonen (University of Jyväskylä)07/05/2026, 14:25
Decay properties of two new astatine isotopes, $^{188}$At and $^{190}$At, were studied in the Accelerator Laboratory of University of Jyv\"askyl\"a, Finland. The nuclei were produced in fusion-evaporation reactions, and those were subsequently separated from the primary beam using the gas-filled recoil separator RITU (Recoil Ion Transfer Unit). Decay spectroscopy studies resulted with a proton...
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Andrea Idini (Lund University)07/05/2026, 14:50contributed 15+5
A microscopic and coherent description of nuclear structure and reactions is crucial to extend the predictivity of scattering observables, particularly for exotic nuclei that have not yet been discovered [1]. Optical potentials provide an effective way to decouple the nuclear structure many-body problem from the nuclear reaction few-body problem by constructing a projectile–target...
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Mikael Reponen (University of Jyvaskyla (FI))07/05/2026, 15:10
The different configurations of the atomic nucleus form a landscape of over 3000 known isotopes. However, even more than 100 years since its discovery
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by Ernest Rutherford, the complexity of the nucleus continues to elude a global theoretical description. To drive theory development, new experimental data
are required from unexplored reaches of the chart of nuclei. A key area for new data is... -
Gandharva Appagere (Stockholm University)07/05/2026, 16:00flash 5+2
on behalf of CBM and "QCD at FAIR"
The strong interaction between baryons at low energies is a key ingredient for understanding the emergence of nuclear matter from Quantum Chromodynamics (QCD). Among other topics, the “QCD at FAIR” program at FAIR aims to explore strongly interacting matter with versatile experimental setups, e.g. CBM and HADES, using hadronic and electromagnetic probes,...
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Linus Persson (Lund University)07/05/2026, 16:07flash 5+2
The European Spallation Source (ESS), currently under construction in Lund, Sweden, will provide the most intense pulsed neutron beam in the world. To make use of this unique infrastructure, the two-stage HIBEAM/NNBAR program [1,2] proposes to use neutron beamlines for precision studies of fundamental symmetries. While one of its principal goals is the first search in more than three decades...
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Claudia Grieg (Department of Physics, University of Oslo)07/05/2026, 16:14flash 5+2
The nucleosynthesis of elements heavier than iron remains an open question in nuclear astrophysics. In the last decade, the intermediate (i) neutron-capture process has attracted attention as a potential explanation for observed abundance patterns in for example the old halo stars in our Galaxy, that cannot be reproduced by the slow and rapid processes. Understanding the i-process requires...
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Claudia Grieg07/05/2026, 16:21flash 5+2
The nucleosynthesis of elements heavier than iron remains an open question in nuclear astrophysics. In the last decade, the intermediate (i) neutron-capture process has attracted attention as a potential explanation for observed abundance patterns in for example the old halo stars in our Galaxy, that cannot be reproduced by the slow and rapid processes. Understanding the i-process requires...
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Lauren Bell (University of Oslo)07/05/2026, 16:28flash 5+2
The samarium isotopic chain provides us with an opportunity to study how the statistical properties, such as the nuclear level density (NLD) and $\gamma$-ray strength function ($\gamma$SF), are effected by deformation.
In 2018, an experiment was carried out at the Oslo Cyclotron Laboratory where we studied the $^{152}$Sm$(p,p^\prime\gamma)^{152}$Sm and ...
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Natalia Ambrosio Macias (University of Jyväskylä)07/05/2026, 16:35flash 5+2
The atomic nucleus exhibits a vast variety of configurations, and despite over a century of study since its discovery, a unified theoretical description of nuclear structure remains incomplete [1]. Progress in this field relies critically on new experimental data from regions of the nuclear chart that remain largely unexplored. One such key region lies in the immediate vicinity of the doubly...
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Jon Kristian Dahl (University of Oslo)07/05/2026, 16:42flash 5+2
The low-energy enhancement (LEE) of the dipole γ-ray strength function has been observed in many nuclei, yet its microscopic origin remains debated. We investigate the LEE in $^{50}$V using large-scale shell-model calculations that treat electric and magnetic dipole transitions consistently within a single framework. Calculations are performed in a sd–pf–sdg valence space with a $1\hbar\omega$...
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Erik Jensen (Chalmers University of Technology)08/05/2026, 09:00
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Hyeji Lee (University of Oslo)08/05/2026, 09:25contributed 12+3
The neutron halo is one of the most intriguing features in systems with a large excess of neutrons compared to protons, providing valuable information about weakly bound many-body systems near the neutron drip line. $^{17}$B has long been regarded as a two-neutron halo nucleus based on various experimental observations. However, recent studies suggest otherwise due to a dominant $d$-wave...
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Henna Joukainen (Chalmers University of Technology)08/05/2026, 09:40contributed 15+5
The level structures of two tungsten isotopes, $^{165}$W and $^{169}$W, have been experimentally well known up to high spin since over 30 years ago. However, in both cases, these structures were not connected to the ground states of the two nuclei. The reason for this, as it turns out, is the presence of an isomeric state preventing the observation of all transitions down to the ground state....
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Manu Kanerva08/05/2026, 10:00contributed 12+3
Reflection-symmetry-breaking nuclear octupole deformation is a phenomenon of significant interest due to its connection with fundamental symmetry considerations ($\mathcal{C}$, $\mathcal{P}$, and $\mathcal{T}$) and its relevance in nuclear structure studies. Substantial experimental evidence indicates that a few nuclei exhibit a pear-like octupole deformation [1], whereas global theoretical...
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Tuomas Grahn (University of Jyvaskyla (FI))08/05/2026, 10:45contributed 15+5
Projectile fragmentation is universal and very powerful tool for production of exotic nuclei, including neutron-deficient species. The yield estimates of neutron-deficient trans-Pb nuclei lack benchmark against experimental data in terms of production cross sections. Therefore, measurements of projectile fragmentation cross-sections using the 1 AGeV 238U primary beam on a...
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Elias Arnqvist08/05/2026, 11:05contributed 12+3
Coincidence gamma-ray spectrometers are promising detector systems in numerous circumstances, thanks to their improved minimum detectable activity (MDA) compared to conventional single-detector systems. In the field of radionuclide monitoring, coincidence gamma-ray spectrometers have the potential to lower detection thresholds and improve the ability to verify compliance with treaties that ban...
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Lucas De Arruda Serra Filho (Uppsala University / Université de Caen-Normandie / Grand Accélérateur d'Ions Lourds (GANIL)), Diego Tarrío08/05/2026, 11:20contributed 12+3
Light-ion emission from neutron-induced reactions remains crucial for enhancing our understanding of the theoretical models governing these nuclear reactions, as well for a wide range of practical applications. Despite advances in recent decades, models such as those implemented within codes like TALYS, still strongly rely on experimental data to constrain free parameters. Accurate...
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Bianca Scavino (Uppsala University)08/05/2026, 11:35contributed 12+3
The Belle II experiment at the SuperKEKB electron–positron collider provides a high-luminosity environment uniquely suited for precision studies of hadron physics. Although primarily designed for flavor physics, Belle II offers powerful opportunities to address key questions in non-perturbative QCD that are of direct interest to nuclear physics.
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In this talk, I will present recent Belle II... -
Mr Adeel Akram08/05/2026, 11:50contributed 12+3
Reliable track reconstruction is vital for the success of the Belle II experiment, especially as detector conditions evolve. The full tracking chain in the Belle II Analysis Software Framework combines Central Drift Chamber (CDC)-seeded and Silicon Vertex Detector (SVD)-seeded tracking stages, which are merged and cleaned to produce final tracks using a Combinatorial Kalman Filter (CKF). We...
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Ali Al-Adili, Andreas Ekström08/05/2026, 12:05
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