Adelaide Research and Scholarship: Mathematical Modeling of the Self-Pressurizing Mechanism for Microstructured Fiber Drawing

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Permanent link to this item: http://hdl.handle.net/2440/52151

Type:	Article
Title:	Mathematical Modeling of the Self-Pressurizing Mechanism for Microstructured Fiber Drawing
Author:	Voyce, Christopher Jonathan Fitt, Alistair D. Hayes, J. R. Monro, Tanya Mary
Citation:	Journal of Lightwave Technology, 2009; 27(7):871-878
Publisher:	IEEE-Inst Electrical Electronics Engineers
Issue Date:	2009
ISSN:	0733-8724
School/Discipline:	School of Chemistry and Physics : Physics and Mathematical Physics
Statement of Responsibility:	Christopher J. Voyce, Alistair D. Fitt, John R. Hayes, and Tanya M. Monro
Abstract:	A method is proposed for modeling the self-pressurization of optical fibers that are sealed before drawing. The model is solved numerically and the results compared with experimental results. An explanation of the mechanism is presented and a numerical investigation is undertaken to optimize the choice of experimental parameters to minimize the transient effects of sealed preform drawing.
Keywords:	Mathematical modeling; optical fiber; optical fiber applications; optical fiber fabrication; optical fiber theory; pressure effects.
RMID:	0020090608
DOI:	10.1109/JLT.2007.916489
Links to content (authorised users):	Check full text options
Appears in Collections:	Physics Publications
View citing articles in:	Web of Science Google Scholar Scopus