Numerical implementation of low-PMD spun fibres with precomputed M(w) matrices

Christos Braimiotis; Marc Eberhard

Numerical implementation of low-PMD spun fibres with precomputed M(w) matrices

Christos Braimiotis, Marc Eberhard

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Poster
With the use of the coarse-step method for simulating the phenomenon of PMD the fibre-twist as not included into the equations. This was an obstacle in representing low-PMD spun fibres numerially.

Original language	English
Title of host publication	Postgraduate Research Conference in Electronics, Photonics, Communications and Networks, and Computing Science (PREP)
Pages	100-101
Number of pages	2
Publication status	Published - Mar 2005
Event	Postgraduate Research Conference in Electronics, Photonics, Communications and Networks, and Computing Science - Lancaster, United Kingdom Duration: 30 Mar 2005 → 1 Apr 2005

Conference

Conference	Postgraduate Research Conference in Electronics, Photonics, Communications and Networks, and Computing Science
Abbreviated title	PREP
Country	United Kingdom
City	Lancaster
Period	30/03/05 → 1/04/05

Keywords

coarse-step method
PMD
fibre-twist
low-PMD spun fibres

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Research Output

1 Conference contribution

Investigation of an L-band erbium-doped fibre amplifier (EDFA) performance

Muhyaldin, S. N. & Eberhard, M., Mar 2005, Proceedings of the UK EPSRC Annual Postgraduate Research Conference in Electronics, Photonics, Communications and Networks, and Computing Science (PREP 2005), Lancaster University,Uk. p. 250-251 2 p.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Cite this

Braimiotis, C., & Eberhard, M. (2005). Numerical implementation of low-PMD spun fibres with precomputed M(w) matrices. In Postgraduate Research Conference in Electronics, Photonics, Communications and Networks, and Computing Science (PREP) (pp. 100-101)

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title = "Numerical implementation of low-PMD spun fibres with precomputed M(w) matrices",

abstract = "PosterWith the use of the coarse-step method for simulating the phenomenon of PMD the fibre-twist as not included into the equations. This was an obstacle in representing low-PMD spun fibres numerially.",

keywords = "coarse-step method, PMD, fibre-twist, low-PMD spun fibres",

author = "Christos Braimiotis and Marc Eberhard",

year = "2005",

month = mar,

language = "English",

pages = "100--101",

booktitle = "Postgraduate Research Conference in Electronics, Photonics, Communications and Networks, and Computing Science (PREP)",

note = "Postgraduate Research Conference in Electronics, Photonics, Communications and Networks, and Computing Science, PREP ; Conference date: 30-03-2005 Through 01-04-2005",

}

Braimiotis, C & Eberhard, M 2005, Numerical implementation of low-PMD spun fibres with precomputed M(w) matrices. in Postgraduate Research Conference in Electronics, Photonics, Communications and Networks, and Computing Science (PREP). pp. 100-101, Postgraduate Research Conference in Electronics, Photonics, Communications and Networks, and Computing Science, Lancaster, United Kingdom, 30/03/05.

TY - GEN

T1 - Numerical implementation of low-PMD spun fibres with precomputed M(w) matrices

AU - Braimiotis, Christos

AU - Eberhard, Marc

PY - 2005/3

Y1 - 2005/3

N2 - PosterWith the use of the coarse-step method for simulating the phenomenon of PMD the fibre-twist as not included into the equations. This was an obstacle in representing low-PMD spun fibres numerially.

AB - PosterWith the use of the coarse-step method for simulating the phenomenon of PMD the fibre-twist as not included into the equations. This was an obstacle in representing low-PMD spun fibres numerially.

KW - coarse-step method

KW - PMD

KW - fibre-twist

KW - low-PMD spun fibres

M3 - Conference contribution

SP - 100

EP - 101

BT - Postgraduate Research Conference in Electronics, Photonics, Communications and Networks, and Computing Science (PREP)

T2 - Postgraduate Research Conference in Electronics, Photonics, Communications and Networks, and Computing Science

Y2 - 30 March 2005 through 1 April 2005

ER -