Title :
Vapor Phase Doping of Rare-Earth in Optical Fibers for High Power Laser
Author :
Saha, Mousumi ; Pal, Arnab ; Sen, Rahul
Author_Institution :
Fiber Opt. & Photonics Div., Central Glass & Ceramic Res. Inst., Kolkata, India
Abstract :
This letter describes an optimized vapor phase doping technique using modified chemical vapor deposition system to fabricate rare-earth doped optical fibers for a high power laser. The process comprises deposition of aluminium oxide and ytterbium oxide in vapor phase simultaneously in combination with silica during formation of the core layer. The process parameters have been judiciously controlled to deliver aluminium chloride and rare-earth-chelate compounds to the reaction zone without decomposition and/or condensation of the precursor materials prior to the reaction zone. The standardization of the process parameters resulted in a good repeatability with a very low variation of dopant concentrations throughout the length of the preform. The fabricated fibers exhibit good optical properties with lasing efficiency of 76% at 1.06 μm.
Keywords :
chemical vapour deposition; doping profiles; fibre lasers; optical fibre fabrication; ytterbium; aluminium chloride; aluminium oxide; chemical vapor deposition; core layer; dopant concentration; efficiency 76 percent; high power laser; lasing efficiency; optical properties; process parameters; rare-earth doped optical fiber fabrication; rare-earth-chelate compounds; reaction zone; silica; vapor phase rare-earth doping; wavelength 1.06 mum; ytterbium oxide; Aluminum oxide; Doping; Fabrication; Optical fiber networks; Optical fibers; Preforms; Silicon compounds; Fiber lasers; optical fiber fabrication; rare earth compounds; vapor deposition; ytterbium;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2013.2289319
