Organisation/Company: CNRS
Department: Laboratoire Ampère
Research Field: Physics
Researcher Profile: Recognised Researcher (R2)
Country: France
Application Deadline: 3 Dec 2024 - 23:59 (UTC)
Type of Contract: Temporary
Job Status: Full-time
Hours Per Week: 35
Offer Starting Date: 1 Jan 2025
Is the job funded through the EU Research Framework Programme? Not funded by a EU programme
Is the Job related to staff position within a Research Infrastructure? No
Offer Description
Study of resonant surface metamaterials associated with inductive phenomena.
Responsibilities:
Carry out a state of art on LF magnetic metamaterials.
Develop a methodology for the analysis and dimensioning (modeling, experimentation) of magnetic metamaterials in the RF range in relation to the intended application.
Disseminate the results during the meetings of the laboratory's host team.
Ensure scientific and technological monitoring.
Promote the results by participating in the writing of articles in journals in the scientific field.
Skills:
In-depth knowledge of electromagnetism.
Use of commercial software in the field and development of specific modeling bricks.
Implementation of experimental measurements to validate modeling approaches.
Skills in writing scientific articles.
Advanced level in written and oral scientific English (Common European Framework of Reference for languages: B2-C1).
Taste and willingness to get involved and interact with the team.
Scientific rigor and organizational skills will be appreciated.
Autonomy and dynamism in work.
The Ampère laboratory is a multidisciplinary research unit based in Lyon, bringing together the Ecole Centrale de Lyon, INSA de Lyon and the University of Lyon I, with 212 members, half of whom are doctoral students, organized around three poles: Electrical Energy, Systems Automation and Bioengineering.
The Electrical Energy (EE) department aims to create and optimize devices for transporting, distributing and converting electrical energy while taking into account their environment. The range of powers and energies considered is very broad, from micro-energies (energy harvesting for communicating objects and sensors) to large energy infrastructures (long-distance energy transport, energy highways intended to facilitate the energy transition).
Activities within the EE department are characterized by:
The permanent desire to respond to societal challenges: reducing pollution by studying more ecological substitute materials, improving conversion efficiencies and electrical energy management, and enhancing the lifespan of equipment, particularly electrical energy storage.
Strong partnership relationships with SMEs and international groups.
The grouping of researchers from various disciplines: magnetic and dielectric materials, passive components, active components, power electronics structures, and integration technologies.
Additional comments:
Possibility of on-site catering + partial reimbursement of public transport costs. Access to the sports and cultural infrastructures of the Ecole Centrale de Lyon and the Rhône-Auvergne Delegation of the CNRS.
#J-18808-Ljbffr