Advanced modelling and simulation of molecular or hybrid quantum systems M/F

New

CNRS Physique

  • Tenure Track Position

This offer is open to people with a document recognizing their status as a disabled worker.

Offer at a glance

The Unit

CNRS Physique

Contract Type

Tenure Track Position

Working hHours

Full Time

Remuneration

Annual salary from 54 600 Euros to 57 800 Euros depending on professionnal experience.

Apply Application Deadline : 02 September 2026 17:00

Job Description

Summary of the scientific project

The QSAM Junior Professorship Chair will strengthen theoretical and numerical research on the dynamics of complex quantum systems, in particular quantum dynamics and the control of quantum processes via light–matter interactions. These processes will be investigated using emerging methods such as machine learning, tensor networks, and hybrid approaches incorporating physical constraints.
The chairholder will contribute to developments in one or more of the following areas: 1) Advanced quantum dynamics: simulation and control of ultrafast processes including electronic correlations and electron–nuclear couplings; 2) Light–matter interaction in molecular or hybrid systems, such as systems coupling molecules or nano-objects to surfaces; 3) Quantum control strategies and coherent manipulation of degrees of freedom.
A strong interest in methodological developments and in fostering theory–experiment dialogue is expected.

Summary of the teaching project

Candidates must propose a teaching project (28 hours of lectures or 42 hours of tutorials/practical sessions) related broadly to the themes of the QSAM Junior Professorship Chair. This teaching project will then be discussed and finalized with the university authorities of the host laboratory.

Your Profil

Profile Required

Holders of a doctorate or a PhD or equivalent degree or applicants who have gained scientific qualifications or carried out scientific work deemed to be of an equivalent level.There is no restriction on the age or nationality of applicants. All CNRS positions are accessible to people with disabilities, with special arrangements for tests made necessary by the nature of the disability

Your Work Environment

Host Lab Strategy

The three laboratories likely to host the recipient of the QSAM Junior Professorship Chair are: l'ISMO, l'ICB et l'IPR.
ISMO is strongly involved in the theoretical study of quantum dynamics, spanning ultrafast phenomena, nano-photonics, and quantum control. This research contributes to the development of advanced methods and applies to a wide range of systems, from cold atoms to molecules, as well as low-dimensional hybrid systems.
ICB has recently created the Interactions and Quantum Control department, covering a broad spectrum ranging from atomic and molecular spectroscopy to the dynamics of reactive collisions, quantum metrology and information, as well as nonlinear phenomena in photonic systems.
IPR conducts multidisciplinary research in physics of matter, with world-leading expertise in molecular physics focused on laboratory astrophysics that combines theory and experiment. It develops high-precision quantum methods for studying molecular structure and dynamics, as well as atomic processes in high-intensity laser fields.

Institution Strategy

The CNRS Physics strategic foresight identifies the development of advanced numerical methods for modelling and simulating quantum dynamics across different scales as a key priority, notably within the areas of Matter, Light and Quantum Processes, and Physics in Extreme Regimes. In this context, molecular or hybrid quantum systems occupy a central position, driven by the growing need to describe complex systems in which quantum correlations, out-of-equilibrium dynamics, and couplings to the environment interact in non-trivial ways.
The creation of the Junior Professorship Chair QSAM aims to strengthen theoretical and numerical research on quantum dynamics and the control of ultrafast processes, by leveraging emerging approaches such as machine learning, tensor networks, and hybrid strategies incorporating physical constraints. It targets the simulation of processes involving electronic correlations and electron–nuclear couplings, as well as the study of light–matter interactions in molecular or hybrid systems, with a particular emphasis on coherent control and the manipulation of quantum degrees of freedom.
The QSAM Chair will have a structuring effect by bringing together theorists and computational scientists working on dynamics and coherent control at ultrashort timescales, in connection with the European Laser4U network, which for more than twenty years has united communities around light–matter interactions and quantum control, and within which the participating laboratories aim to strengthen their positioning. It will also consolidate national synergies with the PEPR Quantique and LUMA programs, for which the QSAM theme serves as a point of convergence. In this way, it will help structure a coherent continuum between theoretical and numerical developments and their confrontation with experiments.

International Strategy

The CNRS international policy aims to increase the impact and relevance of its research by fostering exchanges with research teams worldwide. Two-thirds of the 55,000 scientific publications from CNRS-affiliated laboratories result from international collaborations. CNRS operates more than 80 international laboratories in nearly 50 countries. The prospective host laboratories for the Junior Professorship Chair all have international collaborative projects and regularly host foreign researchers within this framework. Applications from researchers currently working abroad are strongly encouraged. Applications from researchers currently based abroad are strongly encouraged.

Compensation and benefits

Compensation

Annual salary from 54 600 Euros to 57 800 Euros depending on professionnal experience.

Total funding

200k€

Annual leave and RTT

44 jours

Remote Working practice and compensation

Pratique et indemnisation du TT

Transport

Prise en charge à 75% du coût et forfait mobilité durable jusqu’à 300€

Research Policy

Open Science

The CNRS is developing a strong policy in favor of open science. Open science consists of making research results "as accessible as possible and closed as necessary". As such, the CNRS aims to make 100% of the texts of publications resulting from the work of its laboratories accessible , in particular through deposit in HAL. The data produced must also be made available and reusable, except for specific restrictions. In addition, the guiding principles of individual evaluation have been revised in accordance with the DORA declaration, to be more qualitative and to take into account all facets of the researcher's profession.

Science and society

The relationship between science and society is now recognized as a full dimension of scientific activity. The project will develop this dimension in synergy with all the partners. The resulting research work will contribute to informing public decision-making. Participatory science initiatives may be initiated with actors from the project’s socio-economic and cultural eco-system.

Scientific dissemination

The dissemination of the results will be done through world-class scientific productions: publications, patents, software... In addition, the results will be communicated to various targets such as scientific communities, media, decision makers, general public, schools, etc., with an adapted calendar. Specific tools may be developed such as websites, newsletters, meetings, international symposia, summer schools and conferences.

About the offer

Offer reference CPJ-2026-021
CN Section(s) / Research Area Atoms and molecules, optics and lasers, hot plasmas

About the CNRS

The CNRS is a major player in fundamental research on a global scale. The CNRS is the only French organization active in all scientific fields. Its unique position as a multi-specialist allows it to bring together different disciplines to address the most important challenges of the contemporary world, in connection with the actors of change.

CNRS

The research professions

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Advanced modelling and simulation of molecular or hybrid quantum systems M/F

Tenure Track Position

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