Add to ORKGThis 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 (<1%) variation of dopant concentrations throughout the length of the pr...
Barium has been established as an alternate codopant other than conventional aluminum or phosphorous...
In this paper we explore on an alternative technique to make rare earth (RE) doped optical fibre and...
By using rare;earth;halide gas;phase;doping technique, we fabricated Yb;doped large;mode;area fiber ...
Emerging application of rare-earth (RE) doped optical fibers in high power lasers requires preforms ...
Presenting an optimized process to deliver rare-earth compounds in vapor phase for fabrication of la...
We present the characteristics of an ytterbium-doped alumino-silicate fiber, fabricated through vapo...
A 'state-of-the-art' facility for vapor-phase deposition of rare-earth compounds has been establishe...
The process conditions of vapor phase doping technique for fabricating rare earth (RE) doped optical...
This letter describes successful fabrication and detail characterization of ytterbium (Yb)-doped ped...
We report a highly versatile chemical-in-crucible preform fabrication technique suitable for gas-pha...
The paper demonstrates a standardized process of vapor phase doping to fabricate large core Yb-doped...
Recent advances of development of rare-earth (RE) doped optical fibers have become increasingly impo...
We report a hybrid process by combining both vapor-phase and solution-doping techniques of rare-eart...
The vapor phase chelate delivery (VPCD) technique in conjunction with the modified chemical vapor de...
With continuous efforts and practical managing experiences, the chelate precursor doping method has ...
Barium has been established as an alternate codopant other than conventional aluminum or phosphorous...
In this paper we explore on an alternative technique to make rare earth (RE) doped optical fibre and...
By using rare;earth;halide gas;phase;doping technique, we fabricated Yb;doped large;mode;area fiber ...
Emerging application of rare-earth (RE) doped optical fibers in high power lasers requires preforms ...
Presenting an optimized process to deliver rare-earth compounds in vapor phase for fabrication of la...
We present the characteristics of an ytterbium-doped alumino-silicate fiber, fabricated through vapo...
A 'state-of-the-art' facility for vapor-phase deposition of rare-earth compounds has been establishe...
The process conditions of vapor phase doping technique for fabricating rare earth (RE) doped optical...
This letter describes successful fabrication and detail characterization of ytterbium (Yb)-doped ped...
We report a highly versatile chemical-in-crucible preform fabrication technique suitable for gas-pha...
The paper demonstrates a standardized process of vapor phase doping to fabricate large core Yb-doped...
Recent advances of development of rare-earth (RE) doped optical fibers have become increasingly impo...
We report a hybrid process by combining both vapor-phase and solution-doping techniques of rare-eart...
The vapor phase chelate delivery (VPCD) technique in conjunction with the modified chemical vapor de...
With continuous efforts and practical managing experiences, the chelate precursor doping method has ...
Barium has been established as an alternate codopant other than conventional aluminum or phosphorous...
In this paper we explore on an alternative technique to make rare earth (RE) doped optical fibre and...
By using rare;earth;halide gas;phase;doping technique, we fabricated Yb;doped large;mode;area fiber ...