Szczegóły publikacji

Opis bibliograficzny

$SiO_{2}-SnO_{2}:Er^{3+}$ transparent glass-ceramics: fabrication and photonic assessment / L. T. N. Tran, [et al.], D. DOROSZ, [et al.] // W: Fiber lasers and glass photonics: materials through applications : 22–26 April 2018, Strasbourg, France / eds. Stefano Taccheo, Jacob I. Mackenzie, Maurizio Ferrari. — USA : SPIE, cop. 2018. — (Proceedings of SPIE / The International Society for Optical Engineering ; ISSN 0277-786X ; vol. 10683). — ISBN: 9781510618923; e-ISBN: 9781510618930. — S. 106832C-1–106832C-9. — Bibliogr. s. 106832C–106832C-9, Abstr.

Autorzy (16)

  • Tran Lam Thi Ngoc
  • Zur Lidia
  • Massella Damiano
  • Derkowska-Zielińska Beata
  • Chiasera Alessandro
  • Varas Stefano
  • Armellini Cristina
  • Martucci Alessandro
  • Zonta Daniele
  • Tran T.T.V.
  • Lukowiak Anna
  • Taccheo Stefano
  • AGHDorosz Dominik Jacek
  • Righini Giancarlo
  • Boucher Y.G.
  • Ferrari Martino

Słowa kluczowe

energy transfererbiummonolithsemissiontin dioxide

Dane bibliometryczne

ID BaDAP119595
Data dodania do BaDAP2019-02-07
Tekst źródłowyURL
DOI10.1117/12.2306767
Rok publikacji2018
Typ publikacjimateriały konferencyjne (aut.)
Otwarty dostęptak
WydawcaSPIE - The International Society for Optics and Photonics
KonferencjaFiber lasers and glass phoyonics: materials through applications
Czasopismo/seriaProceedings of SPIE / The International Society for Optical Engineering

Abstract

This work focuses on the fabrication processes and photonic assessment of SiO2-SnO2:Er3+ monoliths. To obtain the crack-free and densified system, the sol-gel derived synthesis protocols and heat-treatment processes were optimized. The absorption measurements were employed to assess the effect of the heat-treatment on the samples and specially to estimate the -OH content. The XRD patterns were used to investigate the crystallization as well as the structure of the monoliths. The emission spectra, performed at different excitation wavelengths, evidence the presence of Er3+ in the SnO2 nanocrystals and the energy transfer from SnO2 to the rare earth ions. In addition, the efficient role of SnO2 nanocrystals as Er3+ sensitizers are also experimentally confirmed in this system.

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