Difference between revisions of "Innovative optical component design"
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− | [[fr: | + | [[fr:Conception de composants optiques innovants]] |
+ | |||
+ | '''Objectives:''' | ||
+ | |||
+ | IPP has developed a complete tool of software for the design of new optical components and instruments able to achieve optical functions that could not be performed using usual components and used for example for augmented reality and medical applications. | ||
+ | |||
+ | '''Our work focuses on:''' | ||
+ | |||
+ | * augmented reality system | ||
+ | * diffractive optics rigorous design | ||
+ | * beam shaping of light | ||
+ | |||
+ | '''We have recently obtained:''' | ||
+ | |||
+ | * a spin-off [https://optiive.com/ Optiive] based on a patent of the team concerning an optical component for wide-field augmented reality | ||
+ | * coupling rigorous electromagnetic calculation tools such as FDTD and [[Modeling_and_photonic_Simulation:RSM| RSM]] | ||
+ | * modeling sub-wavelength period gratings with FMM and FDTD tools | ||
+ | * the calibration of an effective medium DOE fulfilling both splitter and beam combiner functions for applications related to solar energy | ||
+ | |||
+ | |||
+ | '''Funding:''' | ||
+ | |||
+ | * SATT Conectus maturation projects | ||
+ | * Postdoc scholarship from the Alsace Region | ||
+ | * Insa-Chinese thesis grants | ||
+ | |||
<gallery widths=200px heights=150px> | <gallery widths=200px heights=150px> | ||
− | File: | + | File:EOD_4_niveaux_eff.jpg|Surface thickness modulation of 4-typical-level DOE with an effective medium |
− | File:lentille_effectif.jpg|Simulation of | + | File:lentille_cyl_eff.jpg| Black and white image used for the development of the photolithographic mask used to manufacture effective medium cylindrical lens |
− | File:EOD_4niveaux.jpg| | + | File:lentille_effectif.jpg| Simulation of an effective medium Fresnel lens |
+ | File:EOD_4niveaux.jpg|False colour height image of a 4-level DOE measured by interferometry (CSI, Zygo) | ||
</gallery> | </gallery> |
Latest revision as of 09:16, 29 August 2022
Objectives:
IPP has developed a complete tool of software for the design of new optical components and instruments able to achieve optical functions that could not be performed using usual components and used for example for augmented reality and medical applications.
Our work focuses on:
- augmented reality system
- diffractive optics rigorous design
- beam shaping of light
We have recently obtained:
- a spin-off Optiive based on a patent of the team concerning an optical component for wide-field augmented reality
- coupling rigorous electromagnetic calculation tools such as FDTD and RSM
- modeling sub-wavelength period gratings with FMM and FDTD tools
- the calibration of an effective medium DOE fulfilling both splitter and beam combiner functions for applications related to solar energy
Funding:
- SATT Conectus maturation projects
- Postdoc scholarship from the Alsace Region
- Insa-Chinese thesis grants