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Portail > Offres > Offre UPR8001-HENCAM-006 - Modélisation de structures optiques nanostructurées transparentes (H/F)

Modeling of transparent nanostructured optical structures (M/F)

This offer is available in the following languages:
Français - Anglais

Date Limite Candidature : samedi 11 décembre 2021

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General information

Reference : UPR8001-HENCAM-006
Workplace : TOULOUSE
Date of publication : Wednesday, November 10, 2021
Type of Contract : FTC Scientist
Contract Period : 24 months
Expected date of employment : 3 January 2022
Proportion of work : Full time
Remuneration : between 2,663 and 3,069 gross per month, depending on experience.
Desired level of education : PhD
Experience required : Indifferent

Missions

The objective of the post-doctorate will be to develop a set of numerical modeling tools adapted to the different spatial scales encountered, in order to provide both characterization tools for the optics developed experimentally within the framework of Opale, as well as tools to assist in the design of such surfaces.

Activities

In the context of this work, a common problem in this field of research remains the accurate modeling of optical effects taking into account sub-wavelength effects, in very large systems, to correctly model wide-field optical effects.
The work will focus on the modeling of advanced micro/nano-structured lens structures to develop a tool for far-field performance prediction and surface design

Skills

- Sub-wavelength photonic modeling (FMM, FDTD or FEM techniques)
- Physics of sub-wavelength optics
- Electromagnetism
- Optical propagation (Gaussian optics, diffractive optics...)
- Additional experience in optics/experimental technology will be appreciated.
- Experience in the use of distributed computing resources (cluster, supercomputers) will also be appreciated.

Work Context

The joint laboratory OPALE between LAAS and ESSILOR is studying the potential of nanotechnologies for vision correction. In this context, the laboratory's teams develop original optical systems based on the Fresnel folding principles of the phase surface of flat lenses, using objects that can be both super- and sub-wavelength

Constraints and risks

no specific risk

Additional Information

Only contacts via the portal will be taken into account.

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