IPP team: Photonics Instrumentation and Processes

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'''Optical instruments and microscopy'''
 
  
: The aim of this platform is to develop new microfabrication processes and to permit the access to high level instruments with an expertise in the following domains : atomic force microscopy (AFM), optics, thermal radiation. It also permits the data analysis and the generation of physical models.
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== Optical instrumentations and microscopy - Platform C3-Fab ==
 +
: The optical and microscopy ressources (PRIOM in French) was set up so as to be able to develop and to give access to the latest instrumentation together with high level expertise in the areas of interference microscopy, 4D profilometry, AFM and optical microscopy. Since January 2017, these facilities have been integrated in the [https://c3fab.icube.unistra.fr/index.php/Accueil C3-Fab] platform.
  
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:<gallery widths=300px heights=200px>
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File:profilometreOptique.jpg|: Optical profilometer (Zygo New View 7200)
  
: The research activity around the platform of optical instruments and microscopy permits collaborations with research groups in the fields of microcomputer and nanofabrication, laser machining, preparation of surfaces and processing. The instruments allow a characterization in 2D and 3D of the topography of surfaces micro and nanostructured and constitute the basic instrumentation for some researches undertaken within the team.
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File:microscopePhotonique-2.jpg|: Adaptable photonic microscope (Zeiss)
  
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File:SalleMicroscopie4D.jpg| 4D microscopy room
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</gallery>
  
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:The instruments allow characterization in 2D, 3D and 4D (3D + t) of the topography of micro and nanostructured surfaces and constitute the basic instrumentation for some of the research undertaken within the IPP team.
  
: The main research themes that benefit from the equipments offered by this platform are :
 
  
::* the surface charaterization of diffractive optical elements (scalar and vectorial) fabricated with use of micro and nanofabrication which design is based on iterative methods developed in the group
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==Optical rooms for healthcare applications - IRIS Platform==
::* the study and the analysis of the physical interaction of high power lasers on matter
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Two optical rooms for ICube researchs in relation with healthcare are in the Civil hospital as a part of the '''IRIS platform'''
::* the observation, the identification of the provision and the thermal characterization of the integrated microcircuits (in opto-electronic and electronics)
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[https://plateforme.icube.unistra.fr/iris/index.php/Accueil]
::* analysis and the search for empirical models of prediction of the structuring of materials by processes laser
 
  
  
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== CAD facilities ==
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'''The trend towards microscopic and nanoscopic scales requires simulation tools based on wave optics'''.
  
: Finally, the development of the platform is accompanied by an activity by technological survey and installation by new tools, for example in microthermography and analysis of vibrating microstructures. The close cooperations with [http://www.irepa-laser.com/ Irepa Laser] and [http://www.femto-st.fr/ l’Institut Femto-ST] stimulate these developments.
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<gallery widths=200px heights=150px>
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File:lentille_effectif.jpg|Simulation of an effective medium Fresnel Lens
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File:Simul franges blanches.jpg|1D simulation of white light fringes
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</gallery>
  
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Our research work uses simulation softwares ranging from ray tracing:
 +
*'''Code V'''
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*'''Zemax OpticStudio14.2'''
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*'''LightTools'''
  
: Consultant actions for other laboratories or companies is assured as far as possible. The list of the possible uses being nonexhaustive, it is recommended to contact us for any application, even not mentioned, since there is compatibility with the features of the equipment. The requests can simply be addressed by e-mail..
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to softwares based on rigorous vectorial methods such as:
 +
*'''FDTD''': Finite Difference Time Domain
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*'''FEM''': Finite Element Methods
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*'''RSM''': Radiation Spectrum Method, [[Photonics Modeling and Simulation:RSM|'''Radiation Spectrum Method''']]
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*'''FMM''': Fourier Modal Method
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*'''MIE''': generalized Mie theory
  
 +
Particular effort is focused on the interaction between an optical beam and subwavelength structures. To do this, we develop dedicated simulation tools. The components studied are used in measurement systems for medical applications or for use in the control of photonics processes.
  
  
:<gallery widths=300px heights=200px>
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== 6 optics rooms ==
File:profilometreOptique.jpg|: Profilomètre optique (Zygo New View 7200)
+
 
 +
: The main research themes that benefit from the equipment in these rooms are:
 +
 
 +
::* the surface charaterization of diffractive optical elements (scalar and vectorial) made by micro and nanofabrication (in collaboration with [http://www.femto-st.fr/ l’Institut Femto-ST]) in which the designs are based on iterative methods developed in the group
 +
::* the study and the analysis of the physical interaction of high power lasers beams with matter
 +
::* the observation, the identification of the layout and the thermal characterization of integrated microcircuits (opto-electronic and electronic)
 +
::* the analysis and search for empirical models for the prediction of the structuring of materials by laser processes
 +
 
 +
== Equipement shared with IREPA Laser ==
 +
 
 +
[http://www.irepa-laser.com/ IREPA Laser] is a Technology Ressource Center and partner of our team.
 +
[[File:IREPA.jpg|center|IREPA Laser]]
 +
 
 +
Examples of laser sources at IREPA:
 +
:"Tangerine" Femtosecond Laser: 30W 300 fs
 +
:Ytterbium fiber laser: 20 W à 5000 W
 +
:Nd:YAG Lasers: continuous and pulsed
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:CW NIR laser 7 kW
 +
:Laser diode: 20 W à 3000 W
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:CO2 Lasers: 150 W à 3500 W
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:Excimer lasers, etc.
  
File:microscopePhotonique-2.jpg|: Microscope photonique modulaire (Zeiss)
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: Consultancy for other laboratories or companies is assured as far as is possible.
</gallery>
 

Latest revision as of 10:00, 29 August 2022

Optical instrumentations and microscopy - Platform C3-Fab

The optical and microscopy ressources (PRIOM in French) was set up so as to be able to develop and to give access to the latest instrumentation together with high level expertise in the areas of interference microscopy, 4D profilometry, AFM and optical microscopy. Since January 2017, these facilities have been integrated in the C3-Fab platform.
  • Optical profilometer (Zygo New View 7200)
  • Adaptable photonic microscope (Zeiss)

  • 4D microscopy room

    • The instruments allow characterization in 2D, 3D and 4D (3D + t) of the topography of micro and nanostructured surfaces and constitute the basic instrumentation for some of the research undertaken within the IPP team.


    Optical rooms for healthcare applications - IRIS Platform

    Two optical rooms for ICube researchs in relation with healthcare are in the Civil hospital as a part of the IRIS platform [1]


    CAD facilities

    The trend towards microscopic and nanoscopic scales requires simulation tools based on wave optics.

    • Simulation of an effective medium Fresnel Lens

    • 1D simulation of white light fringes

    Our research work uses simulation softwares ranging from ray tracing:

    • Code V
    • Zemax OpticStudio14.2
    • LightTools

    to softwares based on rigorous vectorial methods such as:

    • FDTD: Finite Difference Time Domain
    • FEM: Finite Element Methods
    • RSM: Radiation Spectrum Method, Radiation Spectrum Method
    • FMM: Fourier Modal Method
    • MIE: generalized Mie theory

    Particular effort is focused on the interaction between an optical beam and subwavelength structures. To do this, we develop dedicated simulation tools. The components studied are used in measurement systems for medical applications or for use in the control of photonics processes.


    6 optics rooms

    The main research themes that benefit from the equipment in these rooms are:
    • the surface charaterization of diffractive optical elements (scalar and vectorial) made by micro and nanofabrication (in collaboration with l’Institut Femto-ST) in which the designs are based on iterative methods developed in the group
    • the study and the analysis of the physical interaction of high power lasers beams with matter
    • the observation, the identification of the layout and the thermal characterization of integrated microcircuits (opto-electronic and electronic)
    • the analysis and search for empirical models for the prediction of the structuring of materials by laser processes

    Equipement shared with IREPA Laser

    IREPA Laser is a Technology Ressource Center and partner of our team.

    IREPA Laser

    Examples of laser sources at IREPA:

    "Tangerine" Femtosecond Laser: 30W 300 fs
    Ytterbium fiber laser: 20 W à 5000 W
    Nd:YAG Lasers: continuous and pulsed
    CW NIR laser 7 kW
    Laser diode: 20 W à 3000 W
    CO2 Lasers: 150 W à 3500 W
    Excimer lasers, etc.
    Consultancy for other laboratories or companies is assured as far as is possible.
    Retrieved from "https://ipp.icube.unistra.fr/index.php?title=Platforms&oldid=2206"