Estudo de um laser à fibra dopada com Érbio em regime de acoplamento passivo de modos com o uso de nanotubos de carbono como absorvedores saturáveis
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Tipo
Dissertação
Data de publicação
2010-08-06
Periódico
Citações (Scopus)
Autores
Rosa, Henrique Guimarães
Orientador
Souza, Eunézio Antônio de
Título da Revista
ISSN da Revista
Título de Volume
Membros da banca
Matos, Christiano José Santiago de
Cruz, Flavio Caldas da
Cruz, Flavio Caldas da
Programa
Engenharia Elétrica
Resumo
In this work we present a study about ultrashort pulse-train generation in Erbiumdoped fiber lasers, by the passive mode-locking technique, with the use of carbon nanotubes saturable absorbers. Carbon nanotubes were incorporated into laser cavities by two techniques: thermophoresis optically-driven deposition and thin films incorporating carbon nanotubes. The second technique has become more advantageous than the first one, because is possible to control carbon nanotubes concentration and thin films thicknesses. Additionally, we present a study about thin films incorporating carbon nanotubes optimization, in order to maximize generated output bandwidths in passively mode-locked Erbium-doped fiber lasers. We used 0.8 and 1.0 nm diameters carbon nanotubes, fabricated thin films with different transmission values (different αL product values), laser cavities with different features, such as total cavity length, total accumulated dispersion, repetition rate. In this context, best results were achieved with thin films containing 1.0 nm diameter carbon nanotubes, with films transmission about 37% (αL product close to 1.0), in 9 m long laser cavity (0.8 m of highly- Erbium-doped fiber and 8.2 m of SMF) of total accumulated dispersion of 0.153 ps/nm. The largest bandwidth measured, with those characteristics cavity parameters, was 5,7 nm.
Descrição
Palavras-chave
laser à fibra dopada com Érbio , acoplamento passivo de modos , nanotubos de carbono , absorvedores saturáveis , otimização , erbium-doped fiber lasers , passive mode-locking , carbon nanotubes , saturable absorbers , optimization