Chalcogenide Glasses for Mid-IR Photonic Applications.

< Back to ILB Patrimony
Authors
  • NAZABAL Virginie
  • BAUDET Emeline
  • CHAHAL Radwan
  • STARECKI Florent
  • BOUSSARD PLEDEL Catherine
  • VERGER Frederic
  • NEMEC Petr
  • LHERMITE Herve
  • CHARRIER Joel
  • ADAM Jean luc
  • BUREAU Bruno
  • COLAS Florent
  • RINNERT Emmanuel
  • LAMY DE LA CHAPELLE Marc
  • TOURY Timothee
  • MICHEL Karine
  • COMPERE Chantal
  • MARRE Samuel
  • GARRABOS Yves
  • KERN Pierre
  • D AMICO Ciro
  • TROLES Johann
  • MARTIN Guillermo
  • STOIAN Razvan
  • NAZABAL V.
  • BAUDET E.
  • CHAHAL R.
  • STARECKI F.
  • BOUSSARD C.
  • VERGER F.
  • NIMEC P.
  • LHERMITE H.
  • CHARRIER J.
  • ADAM J l
  • BUREAU B.
  • COLAS F.
  • RINNERT E.
  • CHAPELLE M. lamy de la
  • TOURY T.
  • MICHEL K.
  • COMPERE C.
  • MARRE S.
  • GARABOSS Y.
  • KERN P.
  • DAMICO C.
  • TROLES J.
  • MARTIN G.
  • STOIAN R.
Publication date
2014
Publication type
Proceedings Article
Summary The 3-15 μm range is a key region for a large number of applications in diverse areas such as biology and medicine, molecular spectroscopy, ground based and space borne environmental monitoring but also an important issue of instrumentation for astronomy and astrophysics to achieve complex but very reliable instruments. Going to the mid IR region is crucial for the observation of warm objects around 300 K and the characterization of their spectral features, considered as signatures for biological activity (e.g. water, ozone, carbon dioxide). Most infrared signatures or "fingerprints" (fundamental transitions) of organic species and biomolecules are essentially located in this spectral window. Thus, infrared spectroscopy is a powerful tool for detecting and determining the composition of complex samples.
Publisher
IEEE
See the publication
Topics of the publication
Themes detected by scanR from retrieved publications. For more information, see https://scanr.enseignementsup-recherche.gouv.fr