Applications of ab initio nuclear theory to electroweak process in atomic nuclei

Organisation/Company: CNRS

Department: IN2P3

Research Field: Physics » Quantum mechanics

Researcher Profile: First Stage Researcher (R1)

Positions: PhD Positions

Country: France

Application Deadline: 1 Aug 2025 - 00:00 (Europe/Paris)

Type of Contract: Temporary

Job Status: Full-time

Offer Starting Date: 1 Oct 2025

Is the job funded through the EU Research Framework Programme? No

Reference Number: 64689

Is the Job related to staff position within a Research Infrastructure? No

This PhD project focuses on developing atomic codes for high-precision calculations of hyperfine splitting in atoms with light nuclei. The research aims to bridge nuclear and atomic physics by assessing the accuracy of nuclear Hamiltonians against ultra-precise atomic measurements from the QUARTET collaboration’s muonic atom experiments. The candidate will collaborate with experts in Multi-Configuration Dirac-Fock methods to incorporate charge and magnetic density distributions from nuclear structure codes. The project will also develop many-body techniques to treat bound and continuum states in a unified framework, refining nuclear Hamiltonians to match the most precise measurements of light systems and reducing reliance on empirical fitting.

The ideal candidate should hold a Master’s degree or equivalent in subatomic, quantum, or condensed matter physics. The role requires solid knowledge in theoretical physics, computing, and High-Performance Computing (HPC). Excellent communication skills in English (both oral and written) are necessary, as the candidate will present at conferences and publish scientific articles. French language courses will be provided for candidates from abroad. The candidate should be eager to learn, independent, motivated, and capable of working in a team, with a strong interest in research and technical skills in computing/HPC.