311 research outputs found
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Wavelengths switching and allocation algorithms in multicast technology using m-arity tree networks topology
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University London.In this thesis, the m-arity tree networks have been investigated to derive equations for their nodes, links and required wavelengths. The relationship among all parameters such as leaves nodes, destinations, paths and wavelengths has been found. Three situations have been explored, firstly when just one server and the leaves nodes are destinations, secondly when just one server and all other nodes are destinations, thirdly when all nodes are sources and destinations in the same time. The investigation has included binary, ternary, quaternary and finalized by general equations for all m-arity tree networks.
Moreover, a multicast technology is analysed in this thesis to transmit data carried by specific wavelengths to several clients. Wavelengths multicast switching is well examined to propose split-convert-split-convert (S-C-S-C) multicast switch which consists of light splitters and wavelengths converters. It has reduced group delay by 13% and 29% compared with split-convert (S-C) and split-convert-split (S-C-S) multicast switches respectively. The proposed switch has also increased the received signal power by a significant value which reaches 28% and 26.92% compared with S-C-S and S-C respectively.
In addition, wavelengths allocation algorithms in multicast technology are proposed in this thesis using tree networks topology. Distributed scheme is adopted by placing wavelength assignment controller in all parents’ nodes. Two distributed algorithms proposed shortest wavelength assignment (SWA) and highest number of destinations with shortest wavelength assignment (HND-SWA) algorithms to increase the received signal power, decrease group delay and reduce dispersion. The performance of the SWA algorithm was almost better or same as HND-SWA related to the power, dispersion and group delay but they are always better than other two algorithms. The required numbers of wavelengths and their utilised converters have been examined and calculated for the researched algorithms. The HND-SWA has recorded the superior performance compared with other algorithms. It has reduced number of utilised wavelengths up to about 19% and minimized number of the used wavelengths converters up to about 29%.
Finally, the centralised scheme is discussed and researched and proposed a centralised highest number of destinations (CHND) algorithm with static and dynamic scenarios to reduce network capacity decreasing (Cd) after each wavelengths allocation. The CDHND has reduced (Cd) by about 16.7% compared with the other algorithms
Light-matter interactions
Understanding light-matter interaction is important to control the electron and nuclear dynamics of quantum-mechanical systems. The present work investigates this in the form of angular dependent tunnel ionization and different control mechanisms for nuclear, electron and coupled dynamics. With the help of close collaboration with experimental groups several control mechanisms could be examined and explained. The refined methods and models for these studies can be expanded for different experiments or more general concepts. The first part of this thesis focuses on tunnel ionization as one of the fundamental quantum-mechanical light-matter interactions while the second and third part investigates the control of nuclear and electron dynamics in depth.
The angular dependent tunnel ionization of small hydrocarbons and the impact of their field dressed orbitals are researched in chapter 3. Advanced quantum chemical methods are used to explain experimental findings that could not be recognized by only looking at the Highest Occupied Molecular Orbital (HOMO). The so studied molecules show the importance to consider field dressed instead of field free orbitals to understand the light-matter interaction, to replicate experimental findings with theoretical models and to predict the behavior of different molecules. The influence of Rydberg character in virtual orbitals, that can become populated in a field dressed picture, can explain the difference in the angular dependent tunnel ionization for two similar derivates of Cyclohexadiene (CHD) and the lobed structure for C2H4 . This chapter also shows the success of adapting a previous used model for diatomic systems to polyatomic systems.
The second part (chapter 4) investigates the deprotonation and isomerization reaction of acetylene (C2H2) and allene (C3H4) and the potential control with laser pulses over theses reaction. The first control mechanism utilizes the light field to suppress the reaction barrier, which allows molecules with lower energy to undergo isomerization and therefore increase the rate of the reaction. The second scheme controls the asymmetry of the reaction, so that either the left to right or right to left isomerization is preferred. This control is exercised by directly manipulating the nuclear wave packet with the Carrier–Envelope–Phase (CEP) of the laser pulse. The mechanism relies on forming a superposition of different normal modes that are excited by different means and therefore have a phase difference. One or more normal modes are excited by the light field and get the CEP imprinted in their phase while the other important normal modes are indirectly excited by the ionization process. This enables directional control of the nuclear dynamics in symmetric molecules. The concept of forming the superposition is general enough to be used in different reactions and molecules.
In the last part (chapter 5) the control of electron dynamics with laser pulses is studied. The test case is the selective population of dressed states (SPODS) in the potassium dimer (K2). There a first pulse will populate an electronic superposition between the ground and first excited state. Depending on the relative phase of the second pulse to the oscillating dipole created by the electronic wave packet, the upper or lower dressed state will be populated. Excitation from the two different dressed states leads to two distinguishable final states. Although the scheme focuses on the control of the electron dynamics, the whole mechanism is also heavily influenced by the associated nuclear dynamics
Técnicas alternativas para amplificação de Raman em telecomunicações
Doutoramento em FísicaO presente trabalho centra-se no estudo dos amplificadores de
Raman em fibra ótica e suas aplicações em sistemas modernos
de comunicações óticas. Abordaram-se tópicos específicos como
a simulação espacial do amplificador de Raman, a equalização
e alargamento do ganho, o uso de abordagens híbridas de
amplificação através da associação de amplificadores de Raman
em fibra ótica com amplificadores de fibra dopada com Érbio
(EDFA) e os efeitos transitórios no ganho dos amplificadores. As
actividades realizadas basearam-se em modelos teóricos, sendo os
resultados validados experimentalmente.
De entre as contribuições mais importantes desta tese, destaca-se
(i) o desenvolvimento de um simulador eficiente para amplificadores
de Raman que suporta arquitecturas de bombeamento
contraprogantes e bidirecionais num contexto com multiplexagem
no comprimento de onda (WDM); (ii) a implementação de um
algoritmo de alocação de sinais de bombeamento usando a
combinação do algoritmo genético com o método de Nelder-
Mead; (iii) a apreciação de soluções de amplificação híbridas por
associação dos amplificadores de Raman com EDFA em cenários
de redes óticas passivas, nomeadamente WDM/TDM-PON com
extensão a região espectral C+L; e (iv) a avaliação e caracterização
de fenómenos transitórios em amplificadores para tráfego em
rajadas/pacotes óticos e consequente desenvolvimento de soluções
de mitigação baseadas em técnicas de clamping ótico.The present work is based on Raman Fiber Amplifiers and their
applications in modern fiber communication systems. Specific topics
were approached, namely the spatial simulation of Raman fiber
amplifiers, the gain enlargement and equalization the use of hybrid
amplification approaches by association of Raman amplifiers with
Erbium doped fiber amplifiers (EDFA) and the transient effect on
optical amplifiers gain. The work is based on theoretical models,
being the obtained results validated experimentally.
Among the main contributions, we remark: (i) the development of an
efficient simulator for Raman fiber amplifiers that supports backward
and bidirectional pumping architectures in a wavelength division
multiplexing (WDM) context; (ii) the implementation of an algorithm
to obtain enlargement and equalization of gain by allocation of
pumps based on the association of the genetic algorithm with the
Nelder-Mead method; (iii) the assessment of hybrid amplification
solutions using Raman amplifiers and EDFA in the context of passive
optical networks, namely WDM/TDM-PON with extension the C+L
spectral bands; (iv) the assessment and characterization of transient
effects on optical amplifiers with bursty/packeted traffic and the
development of mitigation solutions based on optical clamping
The Development of the NNBAR Experiment
The NNBAR experiment for the European Spallation Source will search for free
neutrons converting to antineutrons with a sensitivity improvement of three
orders of magnitude compared to the last such search. This paper describes
progress towards a conceptual design report for NNBAR. The design of a
moderator, neutron reflector, beamline, shielding and annihilation detector is
reported. The simulations used form part of a model which will be used for
optimisation of the experiment design and quantification of its sensitivity.Comment: 30 pages, 26 figures, accepted for publication in Journal of
Instrumentation (JINST
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ReSCon '12, Research Student Conference: Book of Abstracts
The fifth SED Research Student Conference (ReSCon2012) was hosted over three days, 18-20 June 2012, in the Hamilton Centre at Brunel University. The conference consisted of 130 oral and 70 poster presentations, based on the high quality and diverse research being conducted within the School of Engineering and Design by postgraduate research students. The conference is held annually, and ReSCon plays a key role in contributing to research and innovations within the School
NASA Tech Briefs, April 1997
Topics covered include: Video and Imaging; Electronic Components and Circuits; Electronic Systems; Physical Sciences; Materials; Computer Programs; Mechanics; Machinery/Automation; Manufacturing/Fabrication; Mathematics and Information Sciences; Life Sciences; Books and Reports
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