Light propagation in Liquid-infiltrated Microstructured Optical Fibres”

Per Dalgaard Rasmussen

Light propagation in Liquid-infiltrated Microstructured Optical Fibres”

Per Dalgaard Rasmussen

Department of Photonics Engineering

Research output: Book/Report › Ph.D. thesis › Research

Abstract

The work presented in this thesis is focussed on studying the possibilities of tuning and optimizing the performance of infiltrated waveguides in systems where nonlinear optical effects are exploited. Infiltrated systems where either nonlinear temporal or spatial effects come into play have been considered. First a general introduction to the basic principles used throughout the work is given. It is then shown how infiltrated waveguides can be used for manipulating dispersive and diffractive properties of light propagartion.

Original language	English

Number of pages	127
Publication status	Published - Sep 2008

1 Finished

Liquid Crystal Filled Microstructured Polymer Optival Fibres
Rasmussen, P. D., Bang, O., Lægsgaard, J., Rottwitt, K., Broeng, J. & Skryabin, D. V.
DTU stipendium
01/08/2005 → 25/09/2008
Project: PhD

Cite this

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abstract = "The work presented in this thesis is focussed on studying the possibilities of tuning and optimizing the performance of infiltrated waveguides in systems where nonlinear optical effects are exploited. Infiltrated systems where either nonlinear temporal or spatial effects come into play have been considered. First a general introduction to the basic principles used throughout the work is given. It is then shown how infiltrated waveguides can be used for manipulating dispersive and diffractive properties of light propagartion.",

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AB - The work presented in this thesis is focussed on studying the possibilities of tuning and optimizing the performance of infiltrated waveguides in systems where nonlinear optical effects are exploited. Infiltrated systems where either nonlinear temporal or spatial effects come into play have been considered. First a general introduction to the basic principles used throughout the work is given. It is then shown how infiltrated waveguides can be used for manipulating dispersive and diffractive properties of light propagartion.

M3 - Ph.D. thesis

BT - Light propagation in Liquid-infiltrated Microstructured Optical Fibres”

ER -

Light propagation in Liquid-infiltrated Microstructured Optical Fibres”

Abstract

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Liquid Crystal Filled Microstructured Polymer Optival Fibres

Cite this