Doctoral Thesis
DOI
https://doi.org/10.11606/T.85.2006.tde-04062007-161705
Document
Author
Full name
Paulo Sergio Fabris de Matos
Institute/School/College
Knowledge Area
Date of Defense
Published
São Paulo, 2006
Supervisor
Committee
Wetter, Niklaus Ursus (President)
Catunda, Tomaz
Cruz, Flávio Caldas da
Kassab, Luciana Reyes Pires
Rodrigues, Nicolau Andre Silveira
Catunda, Tomaz
Cruz, Flávio Caldas da
Kassab, Luciana Reyes Pires
Rodrigues, Nicolau Andre Silveira
Title in Portuguese
"Investigação de Lasers de fluoreto dopados com Túlio e bombeados por diodo-Laser"
Keywords in Portuguese
diodo-laser
itérbio
laser de estado sólido
túlio
itérbio
laser de estado sólido
túlio
Abstract in Portuguese
Lasers sintonizáveis ao redor de 2,3 μm são interessantes para várias áreas, como detecção de gases, sensoriamento remoto e aplicações médicas. O túlio é o principal sistema entre os lasers de terras-raras com essa emissão e pode ser bombeado diretamente ou por meio de um sensibilizador como o itérbio. Neste trabalho, apresenta-se a obtenção de um laser de Yb:Tm:YLF com emissão de 620 mW em 2,3 μm bombeado em 960 nm por diodo-laser de 20 W do tipo barra em regime quase-contínuo. Investiga-se o bombeamento de um cristal de Tm:YLF em 685 nm e obtém-se de forma inédita um laser de Yb:Tm:YLF bombeado simultaneamente em 685 e 960 nm. Demonstra-se teórica e experimentamente sua maior eficiência em relação ao bombeamento apenas por 960 nm. Por meio de simulações numéricas e soluções analíticas, mostra-se a melhor relação de potência de bombeamento de cada comprimento de onda para se otimizar o laser.
Title in English
INVESTIGATION OF DIODE-LASER PUMPED THULIUM-DOPED FLUORIDE LASERS
Keywords in English
laser diode
laser of solid state
thulium
ytterbium
laser of solid state
thulium
ytterbium
Abstract in English
Tunable lasers emitting around 2.3 μm region are important in many areas, like gas detection, remote sensing and medical applications. Thulium has a large emission spectra around 2.3 μm with demonstrated tuning range of 2.2-2.45 μm using the YLF host. For efficient pump absorption, a high concentration sensitizer like ytterbium can be used. We demonstrate quasi-cw operation of the Yb:Tm:YLF laser, pumped at 960 nm with a 20 W diode bar achieving the highest output power reported so far of 620 mW. Simultaneous pumping of the 2.3mm Yb:Tm:YLF laser at 685 nm and 960 nm is demonstrated, showing higher slope efficiency than 960 nm alone. Numerical simulations and analytical models show the best ratio of pump power between both wavelengths.
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Publishing Date
2007-06-22
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