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Optical materials, photonics and systems laboratory

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LMOPS
Optical materials, photonics and systems
Latin
Laboratoire Matériaux Optiques, Photonique & Systèmes
Established2000
Field of research
Physics, Chemistry, Materials, Optics, Photonics
DirectorNicolas Fressengeas
Faculty26
Students30
LocationMetz, France
AffiliationsUniversité de Lorraine
CentraleSupélec
Websitelmops.univ-lorraine.fr

The optical materials, photonics and systems laboratory (LMOPS)[1] gathers researchers from Lorraine university[2] and from CentraleSupélec[3],,[4] in the cities of Metz, Saint-Avold and Thionville. The research themes lie in the fields of materials in general and optical materials more specifically, non linear optics, optical sensors and photovoltaics. Almost 30 researchers are working in the laboratory, side by side with roughly the same number of PhD students. The LMOPS was created in the year 2000, building from its ancestor, the Laboratoire Matériaux optiques à propriétés spécifiques,[5] which belonged to the Metz university, which teamed with Supélec in 2000.

Whereabouts

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The LMOPS laboratory is spread over 4 cities:[1]

Research teams

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The research activities within the LMOPS[6] are structured through 4 research teams.[7]

  • The Functional Materials team deals with materials in general, particularly optical materials and polymers
  • The Photonics team is mainly devoted to non linear optics
  • The Raman sensors & Optical control team has a strong background in Raman spectroscopy
  • The Photovoltaics team studies materials and systems for the harvesting of solar energy

Facilities

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The LMOPS laboratory can rely on many optical spectrometers. One of the team is specialized in Raman Spectroscopy and thus works with many kinds of Raman spectrometers. In the laboratory can also be found absorption spectrometers, as well as X fluorescence spectrometers.

The electrical characterization of materials and devices is also an important aspect of the LMOPS activities. Facilities are available for measuring current-voltage curves, as a function of temperature if necessary, for determining the charge carriers, and for measuringcapacity-voltage and impedance curves.

Finally, and omitting the many Laser sources which are always needed in such a laboratory, the LMOPS can rely on heavy equipment far actual material fabrication, such as ovens using the Czochralski process to grow bulk non linear crystals which are to be used for laser frequency doubling, as well as MOVPE equipments for the deposition of thin layers of semi-conductors. These heavy equipments are completed by a lightweight micro-pulling down crystalline fibre machine.

References and notes

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  1. ^ a b "Site institutionnel du LMOPS". lmops.univ-lorraine.fr. Retrieved 2016-06-16.
  2. ^ "Référence LMOPS de l'Université de Lorraine". univ-lorraine.fr. Retrieved 16 June 2016.
  3. ^ "Le labo LMOPS partenaire académique du projet SALSA retenu par l'ANR | CentraleSupélec". www.centralesupelec.fr. Retrieved 2016-06-16.
  4. ^ "Référence LMOPS à CentraleSupélec et à l'Université paris Saclay". www.universite-paris-saclay.fr. Retrieved 2016-06-16.
  5. ^ Guilbert, L.; Salvestrini, J. P.; Fontana, M. D.; Czapla, Z. (1998). "Correlation between dielectric and electro-optic properties related to domain dynamics in RbHSeO 4 crystals". Physical Review B. 58 (5): 2523–2528. doi:10.1103/physrevb.58.2523. Retrieved 2016-06-16.
  6. ^ "Publications du LMOPS". hal.archives-ouvertes.fr. Retrieved 2016-06-16.
  7. ^ "Organigramme | lmops.univ-lorraine.fr". lmops.univ-lorraine.fr. Retrieved 2016-06-16.

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