• español
  • English
  • français
  • Deutsch
  • português (Brasil)
  • italiano
    • español
    • English
    • français
    • Deutsch
    • português (Brasil)
    • italiano
    • español
    • English
    • français
    • Deutsch
    • português (Brasil)
    • italiano
    JavaScript is disabled for your browser. Some features of this site may not work without it.

    Browse

    All of UVaDOCCommunitiesBy Issue DateAuthorsSubjectsTitles

    My Account

    Login

    Statistics

    View Usage Statistics

    Share

    View Item 
    •   UVaDOC Home
    • SCIENTIFIC PRODUCTION
    • Departamentos
    • Dpto. Física de la Materia Condensada, Cristalografía y Mineralogía
    • DEP32 - Artículos de revista
    • View Item
    •   UVaDOC Home
    • SCIENTIFIC PRODUCTION
    • Departamentos
    • Dpto. Física de la Materia Condensada, Cristalografía y Mineralogía
    • DEP32 - Artículos de revista
    • View Item
    • español
    • English
    • français
    • Deutsch
    • português (Brasil)
    • italiano

    Export

    RISMendeleyRefworksZotero
    • edm
    • marc
    • xoai
    • qdc
    • ore
    • ese
    • dim
    • uketd_dc
    • oai_dc
    • etdms
    • rdf
    • mods
    • mets
    • didl
    • premis

    Citas

    Por favor, use este identificador para citar o enlazar este ítem:http://uvadoc.uva.es/handle/10324/21786

    Título
    Mechanisms driving the catastrophic optical damage in high power laser diodes
    Autor
    Souto Bartolomé, Jorge ManuelAutoridad UVA Orcid
    Pura Ruiz, José LuisAutoridad UVA
    Rodríguez, M.
    Anaya Calvo, JuliánAutoridad UVA Orcid
    Torres, Alfredo
    Jiménez López, Juan IgnacioAutoridad UVA Orcid
    Año del Documento
    2015
    Editorial
    Society of Photo-optical Instrumentation Engineers (SPIE)
    Descripción
    Producción Científica
    Documento Fuente
    SPIE Proceedings, 2015, Vol. 9348, P. 9348O-1-7 Mark S. Zediker, Editor(s)
    Abstract
    The catastrophic optical damage (COD) of laser diodes consists of the sudden drop off of the optical power. COD is generally associated with a thermal runaway mechanism in which the active zone of the laser is molten in a positive feedback process. The full sequence of the degradation follows different phases: in the first phase, a weak zone of the laser is incubated and the temperature is locally increased there; when a critical temperature is reached the thermal runaway process takes place. Usually, the positive feedback leading to COD is circumscribed to the sequential enhancement of the optical absorption in a process driven by the increase of the temperature. However, the meaning of the critical temperature has not been unambiguously established. Herein, we will discuss about the critical temperature, and the physical mechanisms involved in this process. The influence of the progressive deterioration of the thermal conductivity of the laser structure as a result of the degradation during the laser operation will be addressed.
    Materias (normalizadas)
    Laser diodes,
    ISSN
    0277-786X
    Revisión por pares
    SI
    DOI
    10.1117/12.2079464
    Patrocinador
    Junta de Castilla y León (programa de apoyo a proyectos de investigación – Ref. VA302U13)
    Version del Editor
    http://spie.org/publications/conference-proceedings?WT.svl=mddp2
    Idioma
    eng
    URI
    http://uvadoc.uva.es/handle/10324/21786
    Derechos
    openAccess
    Collections
    • DEP32 - Artículos de revista [284]
    Show full item record
    Files in this item
    Nombre:
    VA_293U13_5-Proc.SPIE_9348_2015.pdf
    Tamaño:
    658.0Kb
    Formato:
    Adobe PDF
    Thumbnail
    FilesOpen
    Attribution-NonCommercial-NoDerivatives 4.0 InternationalExcept where otherwise noted, this item's license is described as Attribution-NonCommercial-NoDerivatives 4.0 International

    Universidad de Valladolid

    Powered by MIT's. DSpace software, Version 5.10