Notice détaillée
Titre
SCI-STI-HL
Formal Name (French)
Groupe SCI STI HL
Formal Name (English)
SCI STI HL Group
Lab Manager
Thiran, Jean-Philippe
Group ID
U12587
Institut
IEM
Faculté
STI
Note
Members of sci-sti-hl
Previous institute: IMT (>2021)
Previous institute: IMT (>2021)
Publications
Absence of UV-Induced Stress in Bragg Gratings Recorded by high-intensity 264 nm Laser Pulses in a Hydrogenated SMF-28
ArF excimer laser induced refractive index changes in Bi-Al-doped silica optical fiber
Fabrication/Characterization of Fiber Gratings and Photosensitivity in Ge-Free Bi-Al-Silica Fibers
Jean-Daniel Colladon symposium "milestones in light guiding"
Light induced stresses in silica fibers - invited
Photosensitivity of Bi-Al-doped silica optical fibers to 193 nm excimer laser irradiation
Strictly Real Fundamental Theorem Of Algebra Using Polynomial Interlacing
Tunable Pr3+-Yb3+-doped all-fiber upconversion laser
UV induced fiber Bragg gratings (FBG) written in fully polymerized polymer optical fibers (POF)
Workshop: Next-Generation Fibers for High Capacity Transmission—Radical Solutions
Voir toutes les publications (206)
ArF excimer laser induced refractive index changes in Bi-Al-doped silica optical fiber
Fabrication/Characterization of Fiber Gratings and Photosensitivity in Ge-Free Bi-Al-Silica Fibers
Jean-Daniel Colladon symposium "milestones in light guiding"
Light induced stresses in silica fibers - invited
Photosensitivity of Bi-Al-doped silica optical fibers to 193 nm excimer laser irradiation
Strictly Real Fundamental Theorem Of Algebra Using Polynomial Interlacing
Tunable Pr3+-Yb3+-doped all-fiber upconversion laser
UV induced fiber Bragg gratings (FBG) written in fully polymerized polymer optical fibers (POF)
Workshop: Next-Generation Fibers for High Capacity Transmission—Radical Solutions
Voir toutes les publications (206)
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