Quantum-plasmonic engineering to improve the 1.53 µm radiative emission in Er3+-doped tellurite glasses under controlled temperature (2024)
- Authors:
- USP affiliated authors: MAREGA JUNIOR, EUCLYDES - IFSC ; CALDERÓN, GASTON LOZANO - IFSC ; RIVERA, VICTOR ANTHONY GARCIA - IFSC
- Unidade: IFSC
- DOI: 10.1016/j.materresbull.2024.113038
- Subjects: NANOPARTÍCULAS; MATERIAIS NANOESTRUTURADOS; PROPRIEDADES DOS MATERIAIS; VIDRO CERÂMICO
- Keywords: Tellurite glasses; Plasmon; Au nanoparticles; Near-infrared; Luminescence enhancement
- Agências de fomento:
- Language: Inglês
- Imprenta:
- Source:
- Título: Materials Research Bulletin
- ISSN: 0025-5408
- Volume/Número/Paginação/Ano: v. 180, p. 113038-1-113038-10 + supplementary materials, Nov. 2024
- Este periódico é de assinatura
- Este artigo NÃO é de acesso aberto
- Cor do Acesso Aberto: closed
-
ABNT
CALDERÓN, Gaston Lozano et al. Quantum-plasmonic engineering to improve the 1.53 µm radiative emission in Er3+-doped tellurite glasses under controlled temperature. Materials Research Bulletin, v. No 2024, p. 113038-1-113038-10 + supplementary materials, 2024Tradução . . Disponível em: https://doi.org/10.1016/j.materresbull.2024.113038. Acesso em: 28 dez. 2025. -
APA
Calderón, G. L., Rivera, V. A. G., Celaschi, S., Messaddeq, Y., & Marega Junior, E. (2024). Quantum-plasmonic engineering to improve the 1.53 µm radiative emission in Er3+-doped tellurite glasses under controlled temperature. Materials Research Bulletin, No 2024, 113038-1-113038-10 + supplementary materials. doi:10.1016/j.materresbull.2024.113038 -
NLM
Calderón GL, Rivera VAG, Celaschi S, Messaddeq Y, Marega Junior E. Quantum-plasmonic engineering to improve the 1.53 µm radiative emission in Er3+-doped tellurite glasses under controlled temperature [Internet]. Materials Research Bulletin. 2024 ; No 2024 113038-1-113038-10 + supplementary materials.[citado 2025 dez. 28 ] Available from: https://doi.org/10.1016/j.materresbull.2024.113038 -
Vancouver
Calderón GL, Rivera VAG, Celaschi S, Messaddeq Y, Marega Junior E. Quantum-plasmonic engineering to improve the 1.53 µm radiative emission in Er3+-doped tellurite glasses under controlled temperature [Internet]. Materials Research Bulletin. 2024 ; No 2024 113038-1-113038-10 + supplementary materials.[citado 2025 dez. 28 ] Available from: https://doi.org/10.1016/j.materresbull.2024.113038 - Unveiling the localized surface plasmon-Er3+ coupling in the near-infrared emission at low temperatures
- Broadening the 1.53 μm emission bandwidth in Er3+-doped tellurite glasses from plasmonic structures
- Tuning of color emission in zinc-tellurite glasses by controlling pump power and Er3+ doping concentration
- Influence of metal oxides on the structural and gammashielding roperties of zinc-tellurite glasses
- Simulation of plasmonic nanostructures for polarization control/selection of the emission of Er3+ in tellurite glasses
- Optical thermometry of tellurite glasses doped with Er3+-Yb3+ under UV and NIR excitation
- Simulation of a nanoplasmonic wave plate based on elliptical bull's eye nanostructure
- Multiple Fano resonance realization in far-field through plasmonic nanostructures using an optical gain medium
- Thermometry and optical study of Er3+-Yb3+ doped tellurite glasses as a suitable candidate for optical fibre
- Tailoring the 1.53 µm Er3+ emission bandwidth via metallic nanorods coupling
Informações sobre o DOI: 10.1016/j.materresbull.2024.113038 (Fonte: oaDOI API)
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