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Title: Machine learning modelling, optimisation and thermal compensation of photonic waveguides
Author: Chugh, Sunny
ISNI:       0000 0004 9354 7637
Awarding Body: City, University of London
Current Institution: City, University of London
Date of Award: 2020
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Nanophotonic devices has led to many interesting applications in optical sensing, fibre lasers, fibre amplifiers, optical signal processing, and many others. Modelling and optimisation of such devices depends upon the numerical methods employed for modal analysis, such as finite difference method, finite element method, beam propagation method, and others to compute various optical properties including effective index, power confinement, mode effective area, dispersion, confinement loss, etc. One of the aims of this dissertation is to develop a finite element based time domain technique, similar to finite difference time domain method, that can have varying mesh resolutions for spatial discretisation of the computational domain. Parallel programming has been employed to speed up the simulations. However, various design parameters of the optical devices are generally optimised before fabrication. This becomes an iterative process of trying and testing different design parameters which may require significant time and computer resources when dealing with complex optical structures. In this research work, the power of artificial intelligence techniques has been employed to quickly estimate the various properties of different photonics devices (slot, strip, and directional coupler waveguides) and photonic crystal fibre. An in-house code using a machine learning (an application of artificial intelligence) regression approach has been developed. Accuracy of these techniques are described by comparing their outputs with the actual outputs. PyTorch and Python programming languages are extensively used during the development of machine learning approach.
Supervisor: Not available Sponsor: Not available
Qualification Name: Thesis (Ph.D.) Qualification Level: Doctoral
EThOS ID:  DOI: Not available
Keywords: QA75 Electronic computers. Computer science