4th PhyNuBe school : Innovative Technologies, Theories, and Methodologies in Nuclear Physics

17 mai 2026, 17:00 → 22 mai 2026, 14:00 Europe/Paris

The organization of the PhyNuBE schools is one of the key initiatives of the GDR RESANET. These schools aim at educating physicists in the field of low-energy nuclear physics and promoting exchanges between them. The subject of our discipline deal with the study of the structure and dynamics of atomic nuclei, fundamental symmetries, fission, astrophysics, physics at the drip lines and societal applications, to quote a few. 

Over the past decade, innovative experimental and theoretical methods have emerged. These new avenues require for both young and experienced scientists to constantly acquire new knowledge and to master new tools. The aim of this 4^th school is to introduce them and train researchers and students in emerging concepts.

The following subjects, mostly here applied to nuclear physics, will be addressed:

• Machine learning and artificial intelligence in experiment and theory
• Bayesian methods to predict physics phenomena from observations and theories
• Quantum computing 
• Quantum sensors
• Storage rings for spectroscopy and reactions
• Study of open nuclear quantum systems and synergy with other quantum objects

 

For the first three topics, lectures will be followed by 3-hour training sessions in order to favour the understanding and integration of the subjects. To initiate synergies, participants of the school are invited to submit a contribution that will be selected either as a talk or as a poster.

The event is supported by the GDR Resanet, EUROLABS and the Formation Permanente of the CNRS. Thus, partial support is expected to be available for participants. Personal of the CNRS are highly encouraged to apply as their fees could be covered by the Formation Permanente of the CNRS. The registration fee for non-supported participants covering lodging and all meals during the event, will be about 500 euros, to be paid onsite. 

The number of participants will be limited to 60 participants.

Abstract submission and Registration dead line :  15th February 2025  

The organizers: 

Pauline Ascher, Diego Gruyer, Chloë Hebborn, Denis Lacroix, Antoine Lemasson, Olivier Sorlin (Chair)

lun. 18 mai

Machine Learning

Bayesian methods

10:30 Coffee break

Open quantum systems

Contributions

1 Application of Bayesian analysis methods in gamma-ray spectroscopy

Orateur: Franziskus Spee

2 A Bayesian approach to the Coulomb breakup of 19C

Orateur: Quentin Bozet

12:30 Lunch

15:30 Coffee Break

Training: BM

Training: ML

mar. 19 mai

Quantum computing

Bayesian methods

10:30 Coffee break

Contributions

3 Quantum simulation and encoding strategies for nuclear many-body models

Orateur: SAMIRA BAID (Universidad de Sevilla)

4 Solution of the Equation of Motion Phonon Method eigenvalue problems on the D-Wave quantum annealer

Orateur: Gennaro Nunziata

Open quantum systems

12:30 Lunch

15:30 Coffee Break

Training: BM

Training: QC

mer. 20 mai

Machine Learning

Quantum computing

10:30 Coffee break

Quantum sensors

Contributions

5 Quantum Entanglement and Quantum Simulation Involving Atomic Nuclei

Orateur: Dr Ashutosh Singh

6 Machine learning techniques in the nFacet3D system

Orateur: Kaciel Béraud (Normandie Univ, ENSICAEN, UNICAEN, CNRS/IN2P3, LPC Caen)

12:30 Lunch

7 Poster session

Driss Guillet -- SALER : Cryogenic quantum sensors for Nuclear recoil spectroscopy experiments

Marah Jbayli -- Phoswich Detector Calibration for the MORA Experiment

Prince Shaheen Parvez -- High-precision Q-value measurements with the JYFLTRAP Penning trap for cosmic neutrino background studies

Sara Chafik -- Shape Coexistence and Transition in 66Se Studied with Microscopic and Phenomenological Models

Samuel Durand -- Measurement of Beta Decay Properties of Nuclei of Interest for Nuclear Structure and Astrophysics, and Applications

Piotr Garczyński -- Gamma-ray spectroscopy of long-lived fragments in fusion-fission studies

Safa Helal -- Feasibility Studies for Medical Auger Spectra

Mohammed Nejmi -- Exploring Machine Learning Techniques to Describe Nuclear Reactions

Emilien Schroeder -- Uncertainty quantification of nuclear models through machine learning

Prabhat Sharma -- Study of 68Ni by means of (d,p) and (p,d) transfer
reactions

Gianluca Stellin -- Investigating the alpha-cluster structure of 24Mg through Nuclear Lattice Effective Field Theory

Enzo Thiriont-Bernolle -- Eigenvector continuation on HFB and PGCM states + Collective EFT

jeu. 21 mai

Quantum sensors

Storage rings

10:30 Coffee break

Contributions

8 Need for innovative algorithms in ACTAR TPC decay experiments analysis

Orateur: Jérôme Giovinazzo (LP2IB (CENBG) CNRS / Univ. Bordeaux)

9 The tetra-neutron isobaric analog state in 4H

Orateur: Quentin Délignac (IJCLab)

10 Matter radii from interaction cross sections using microscopic nuclear densities

Orateur: Andrew John Smith

11 Low-depth variational circuit design for heavy nuclei

Orateur: Chandan Sarma

12:30 Lunch

15:30 Coffee Break

Training: ML

Training: QC

ven. 22 mai

Open quantum systems

Storage rings

10:30 Coffee break

Contributions

12 Beyond ADC(2): A Multichannel Dyson Equation Approach to Nuclear Optical Potentials

Orateur: Thibault Demartini

13 From Giant to Pygmy: Electric Dipole Response in Light Nuclei and Its Astrophysical Impact

Orateurs: Oscar Le Noan (IPHC - CNRS - University of Strasbourg), Oscar Le Noan (IPHC - Groupe Théorie)

14 Cluster structures in 12C

Orateurs: Louis Heitz (CEA), Louis Heitz (IJCLab & CEA/Irfu/DPhN)

15 Hypernuclei in Gamow Shell Model

Orateur: Alan Cruz DASSIE (Grand Accélérateur National d’Ions Lourds (GANIL), CEA/DSM - CNRS/IN2P3, BP 55027, F-14000 Caen, France)

12:30 Lunch