Modelovanje uticaja intenzivnih promena Sunčevog zračenja na prostiranje radio talasa / Modelling of intense solar radiation change influence on radio propagation

Bajčetić Jovan

09 March 2017

<p>Ova disertacija predstavlja rezultate istraživanja uticaja dve vrste<br />intenzivnih promena Sunčevog zračenja na prostiranje radio talasa. Prvi deo<br />prikazanih rezultata odnosi se na efekte neperiodičnih zračenja u X-opsegu<br />talasnih dužina u toku trajanja Sunčevog X-flera. Izvršeno je modelovanje<br />karakteristika jonizovane sredine D-sloja jonosfere u toku celokupnog<br />trajanja efekata dodatne energije jonizacije i karakteristika prostiranja<br />radio talasa određenih frekvencijskih opsega u okviru navedene sredine.<br />Drugi deo rezultata prikazuje periodičnu promenu nivoa prijemnog signala<br />usmerene mikrotalasne radio komunikacije koja nastaje u toku jutarnjih<br />časova. Pokazano je da ova promena ima visok stepen korelisanosti sa<br />promenama vrednosti geomagnetskog polja i da je uzrokuje pojava Sunca na<br />horizontu. Na osnovu rezultata dobijenih merenjem je predložen model koji<br />opisuje trend navedene promene u jutarnjim časovima.</p> / <p>This thesis presents the research results of intensive solar radiation variation<br />influence on radio propagation. The first part of presented results is related to the<br />effects of non-periodic radiation within X-ray wavelength during Solar X-flare.<br />Modelling of ionosphere D-layer medium is performed during all time duration of<br />additional ionization energy, as well as radio propagation characteristics within this<br />medium. The second part of the measured results presents periodic variation of<br />receiving microwave radio signal level of experimental Line-of-site communication<br />during the morning hours. It is shown that this variation is highly correlated with<br />geomagnetic field component values variation and that is caused by the Sun<br />appearance on the horizon. Based on the experimentally collected results, the model<br />that describes this variation during morning hours is proposed.</p>

Dispersion Engineering : Negative Refraction and Designed Surface Plasmons in Periodic Structures

Ruan, Zhichao

January 2007

The dispersion property of periodic structures is a hot research topic in the last decade. By exploiting dispersion properties, one can manipulate the propagation of electromagnetic waves, and produce effects that do not exist in conventional materials. This thesis is devoted to two important dispersion effects: negative refraction and designed surface plasmons. First, we introduce negative refraction and designed surface plasmons, including a historical perspective, main areas for applications and current trends. Several numerical methods are implemented to analyze electromagnetic effects. We apply the layer-KKR method to calculate the electromagnetic wave through a slab of photonic crystals. By implementing the refraction matrix for semi-infinite photonic crystals, the layer-KKR method is modified to compute the coupling coefficient between plane waves and Bloch modes in photonic crystals. The plane wave method is applied to obtain the band structure and the equal-frequency contours in two-dimensional regular photonic crystals. The finite-difference time-domain method is widely used in our works, but we briefly discuss two calculation recipes in this thesis: how to deal with the surface termination of a perfect conductor and how to calculate the frequency response of high-Q cavities more efficiently using the Pad\`{e} approximation method. We discuss a photonic crystal that exhibits negative refraction characterized by an effective negative index, and systematically analyze the coupling coefficients between plane waves in air and Bloch waves in the photonic crystal. We find and explain that the coupling coefficients are strong-angularly dependent. We first propose an open-cavity structure formed by a negative-refraction photonic crystal. To illuminate the physical mechanism of the subwavelength imaging, we analyze both intensity and phase spectrum of the transmission through a slab of photonic crystals with all-angle negative refraction. It is shown that the focusing properties of the photonic crystal slab are mainly due to the negative refraction effect, rather than the self-collimation effect. As to designed surface plasmons, we design a structured perfectly conducting surface to achieve the negative refraction of surface waves. By the average field method, we obtain the effective permittivity and permeability of a perfectly conducting surface drilled with one-dimensional periodic rectangle holes, and propose this structure as a designed surface plasmon waveguide. By the analogy between designed surface plasmons and surface plasmon polaritons, we show that two different resonances contribute to the enhanced transmission through a metallic film with an array of subwavelength holes, and explain that the shape effect is attributed to localized waveguide resonances. / QC 20100817

photonic crystal

dispersion property

negative refraction

surface plasmon polariton

designed surface plasmon

negative index material

layer-KKR method

finite-difference time-domain method

plane wave method

subwavelength imaging

open cavity

enhanced transmission

slowing light

Photonics

Fotonik

Growth And Physical Properties Of Nonlinear Optical Crystals CsH(C4H4O5)H2O, CsLiB6O10 And Near-Stoichiometric LiNbO3

Reddy, Babu J N

05 1900

NLO materials have been researched for nearly five decades from the point of view of understanding the basic mechanisms and also in the pursuit of new materials possessing improved properties. Materials satisfying a set of physico-chemical properties such as wide transmission range, good mechanical hardness, high po-larizablity, noncentric crystal structure, good chemical stability, etc are the ones which are sought after. Several organic and inorganic molecules have been synthe-sized with the hope of finding materials that possess the desired NLO properties. Most of the organic materials are known to possess high figure of merit. However, their poor mechanical strength and needle like growth habit are hindrances to practical applications. Inorganic NLO materials have better mechanical properties but many of them possess small deff and laser induced damage threshold. Semi-organic NLO materials are intended to have the merits of both organic and inorganic counterparts. In this investigation, three important NLO crystals, viz cesium hydrogen L-malate monohydrate (CsLM, CsH[C4H4O5]H2O), cesium lithium borate(CLBO,CsLiB6O10)and near stoichiometric lithium niobate codoped with Nd and Zn (Nd:Zn:LiNbO3)are chosen for detailed study. The thesis is organized into 6 chapters. First chapter contains the theoretical background of the physical and chemical phenomena including a review of nonlin-ear optics, second harmonic generation, multiphoton absorption & refraction con-cepts, single crystal growth, principles of ferroelectricity and the scope of the work involved. For better connectivity, a brief review of the earlier work carried out on the chosen materials is given in the beginning of each chapter. The second chapter discusses the methodology of work and experimental details used in the present study. The third chapter deals with studies on CsLM, the new organometallic NLO crystal. Its structure, electro-optical properties and dielectric properties in FIR region are reported very recently. This material is also reported to show a phase transition at 50 0C though not much is understood about its nature. Further details of crystal growth conditions, nonlinear optical properties and laser damage thresholds are little known on this newly discovered NLO material. In this chapter detailed crystal growth studies and investigations of physical properties are presented. During growth, CsLM crystals manifest in platy and prismatic morphologies depending on level of super saturation invoked. The maximum dimensions of the grown crystal are 20 x15 x35 mm3. It has very good transmission in the range, 250-1300 nm and dislocation density of ≈104/cm2 . The dc conductivity measurements place this crystal between an ionic conductor and a dielectric. Dielectric properties show considerable frequency dispersion and axial anisotropy with є′ being the highest along the polar b axis. Maker fringes experiment reveals that CsLM possesses good second harmonic generation efficiency, an order of magnitude higher than KDP. It also has high laser damage threshold for fundamental and second harmonic wavelengths of Nd:YAG pulsed laser. TGA/DTA experiments are performed on the crystals grown below and above the reported transition temperature(labelled as CsLM and Anhydrous-CsLM respectively). The present investigations on Anhydrous-CsLM show that it crystallizes in a structure different from that of CsLM and the nature of the reported ′phase transition ′is driven by sluggish hydration and dehydration processes. Recently UV transparent nonlinear optical materials were evaluated for the fab-rication of all solid state UVlasers and CLBO is one such NLO material. It crystal-lizes in non-centrosymmetric tetragonal space group, I42d. It is highly transparent in the wide range of wavelengths from 180 to 2500 nm and has good deff. It pos-sesses very good angular and spectral bandwidth tolerances compared to its contemporaries such as lithium triborate(LBO) and beta barium borate(β-BBO). There is, however, a problem associated with this material that it cracks when exposed to atmosphere due to its hygroscopic nature. This chapter details the fabrication of the required instrumentation to grow single crystals of this material and the study of possible solutions to avoid cracking problem besides its new nonlinear properties. Since the melts of borate materials are known to be highly viscous, the crystal growth apparatus should have the options for tuning the parameters like seed and crucible rotation rates, temperature isotherms, slow pulling rate, etc. Keeping the above in mind, a high temperature top seeded solution growth unit was designed and fabricated inhouse. Highly transparent single crystals of CLBO were grown using the above unit which were characterized for the defects/dislocations using X-ray topography. The average dislocation density estimated is ≈103/cm2. The nonlinear optical absorption(NLA) and refraction(NLR) properties are studied. Z-scan experiments reveal that five photon absorption(5PA )is responsible for nonlinear absorption when the wavelength and pulse width are 800 nm and 110 fs respectively. For 532 nm and 6 ns pulses, dielectric breakdown occurs before NLA could occur due to high pulse influence. CLBO is found to show negative nonlinear refraction under high intensities. Hygroscopicity of CLBO is attributed to the entry of water through the channels that are present along a and b axes, which in turn, cause cracking. Doping, is expected to modify the size of the channels. Since certain dopants are found to improve the stability of CLBO, substitution of Cs site with Zn and Gd is carried out to reduce the size of channels. As there was no significant improvement with doping experiments, an alternate approach is attempted by coating with SiO2 thin films on the optical elements to prevent the water molecules from entering lattice through the channels. The results and discussion of the above studies are presented in the chapter 4. Lithium niobate is the most widely used single crystal for fabricating optical modulators, waveguides, SAW devices and optical parametric oscillators. Although single crystals of this ferroelectric material were grown way back in 1965 by Ball-man and Fedulov independently, most of the work till the beginning of 90’s was concentrated on crystals with congruent composition(CLN) because there were no suitable methods available for growing homogeneous single crystals of stoichiomet-ric lithium niobate(SLN). Recently, Double Crucible Czochralski method with au-tomatic powder feeding technique and top seeded solution growth technique with Li2O and K2O fluxes are shown to produce SLN crystals. In this work, top seeded solution growth technique with58.6 mol% Li2O composition(self flux) is adopted to grow SLN crystals and the details of the growth and investigations are presented in chapter 5. Initially, crystal growth of SLN, and Zn & Nd codoped SLN are de-scribed. The maximum dimesions of the SLN crystals are 20 mm diameter and 35 mm length. CLN crystals(30mm diameter and 70 mm length) are also grown for comparison. The growth rate for SLN crystals is approximately 25 times lower than that for CLN. The maximum amount of Zn added to the melt is 2.5 mol%. For Nd codoping, four concentrations (0.2, 0.5, 0.9, 1.5 mol%) have been chosen with Zn concentration in the melt fixed at 2.5 mol%. Addition of Zn is to enhance the pho-torefractive damage threshold and Nd to use SLN as laser host. Structural studies on the grown crystals using powder X-ray diffraction show no additional phases. The domain structure analysis by chemical etching studies reveal that it is sensitive to doping and temperature gradient above the melt surface. The grown crystals possess good transmission in the UV-Vis-NIR region. Apparent increase in the dielectric constant found in doped crystals is attributed to space charge effect. In Nd:Zn codoped SLN, the parameters corresponding to lasing (Judd-Ofelt parameters, radiative transition probabilities, branching ratios) have been evaluated and found to be better than those obtained for codoped CLN. Surface laser damage and photorefractive damage thresholds are enhanced by 2 and 4 orders of magnitude respectively for the crystals grown with 2.5 mol% Zn in the melt. Nonlinear absorption and refraction studies using femtosecond Z-scan experiments reveal a correlation between the nonstoichiometric defects and nonlinear absorption & refraction coefficients. Polarization switching studies carried out on pure and Zn doped samples indicate an enhancement in switching rate at elevated temperatures. In the sixth and final chapter, a comprehensive summary of the present work and the scope for further investigations related to this work are given.

Noninear Optics

Organic Crystals - Optics

Cesium Hydrogen L-Malate Monohydrate

Lithium Niobate

Cesium Lithium Borate

Nonlinear Optical Crystals

Nonlinear Optical Absorption

Nonlinear Optical Refraction

Crystal Growth

(C4H4O5)H2O

CsLiB6O10

NLO Materials

Optics

On diode-pumped solid-state lasers

Hellström, Jonas

January 2007

The research that is presented in this thesis can be divided into two major parts. The first part concerns longitudinally pumped, bulk Er-Yb lasers. In these lasers, the main limitation is the thermal shortcomings of the phosphate glass host material. From the laser experiments and the spectroscopic measurements on crystalline host materials, as well as an investigation to bring further light to the physical background of the involved dynamics, the thesis presents some novel results that contribute to the search for a crystalline replacement. The second part concerns novel laser concepts applied to Yb-doped double tungstate lasers. Different crystal orientations are investigated, such as an athermal orientation for reduced thermal lensing and a conical refraction orientation for complete polarization tuning. Furthermore, the introduction of volume Bragg gratings in the cavity enables wide spectral tuning ranges and extremely low quantum defects. Regarding the first part, the main results are the achievement of 15 % slope efficiency in a monolithic, continuous-wave Yb:GdCOB laser and the achievement of Q-switching of the same laser. The Q-switched pulse durations were around 5-6 ns and the Q-switched slope efficiency was 11.6 %. For both lasers, a maximum output power of 90 mW was obtained, which is close to ordinary glass lasers under similar conditions. A spectroscopic investigation into the Er,Yb-codoped double tungstates was also performed and the results have enabled mathematical modeling of the fluorescence dynamics in these materials. Finally, the temperature dependence of the dynamics in Er,Yb:YAG was studied and the results have given some insight into the physical background of the mechanisms involved. Regarding the second part, different end-pumped Yb:KReW laser cavities were constructed to demonstrate the different concepts. With a laser crystal cut for propagation along the athermal direction at 17º angle clockwise from the dielectric direction Nm, the thermal lens could be reduced by 50 %. In these experiments the maximum output power was 4 W at 60 % slope efficiency. In another cavity incorporating a volume Bragg grating in a retroreflector set-up, the wavelength could be continuously tuned between 997 - 1050 nm. The spectral bandwidth was 10 GHz and the peak output power was 3 W. The same output power could also be obtained at 1063 nm with the grating positioned as an output coupler instead. If, on the other hand, the grating was positioned as an input coupler, 3.6 W output power at 998 nm was obtained at a quantum defect of only 1.6 %. Furthermore, using a crystal oriented for propagation along an optic axis, internal conical refraction could be used to establish arbitrary control of the polarization direction as well as the extinction ratio. Even unpolarized light could be enforced despite the highly anisotropic medium. With this configuration, the maximum output power was 8.6 W at 60 % slope efficiency which equals the performance of a reference crystal with standard orientation. The completely novel concepts of laser tuning with Bragg grating retroreflectors, of low quantum defect through Bragg grating input couplers and of polarization tuning by internal conical refraction can all easily be applied to several other laser materials as well. / QC 20100713

near-infrared lasers

end-pumped lasers

Q-switching

erbium

ytterbium

GdCOB

KGW

KYW

Co:MALO

laser materials

thermal lensing

end-pumping

spectroscopy

conical refraction

volume Bragg gratings

holographic gratings

laser tuning

Physics

Fysik

InP-based photonic crystals : Processing, Material properties and Dispersion effects

Berrier, Audrey

January 2008

Photonic crystals (PhCs) are periodic dielectric structures that exhibit a photonic bandgap, i.e., a range of wavelength for which light propagation is forbidden. The special band structure related dispersion properties offer a realm of novel functionalities and interesting physical phenomena. PhCs have been manufactured using semiconductors and other material technologies. However, InP-based materials are the main choice for active devices at optical communication wavelengths. This thesis focuses on two-dimensional PhCs in the InP/GaInAsP/InP material system and addresses their fabrication technology and their physical properties covering both material issues and light propagation aspects. Ar/Cl2 chemically assisted ion beam etching was used to etch the photonic crystals. The etching characteristics including feature size dependent etching phenomena were experimentally determined and the underlying etching mechanisms are explained. For the etched PhC holes, aspect ratios around 20 were achieved, with a maximum etch depth of 5 microns for a hole diameter of 300 nm. Optical losses in photonic crystal devices were addressed both in terms of vertical confinement and hole shape and depth. The work also demonstrated that dry etching has a major impact on the properties of the photonic crystal material. The surface Fermi level at the etched hole sidewalls was found to be pinned at 0.12 eV below the conduction band minimum. This is shown to have important consequences on carrier transport. It is also found that, for an InGaAsP quantum well, the surface recombination velocity increases (non-linearly) by more than one order of magnitude as the etch duration is increased, providing evidence for accumulation of sidewall damage. A model based on sputtering theory is developed to qualitatively explain the development of damage. The physics of dispersive phenomena in PhC structures is investigated experimentally and theoretically. Negative refraction was experimentally demonstrated at optical wavelengths, and applied for light focusing. Fourier optics was used to experimentally explore the issue of coupling to Bloch modes inside the PhC slab and to experimentally determine the curvature of the band structure. Finally, dispersive phenomena were used in coupled-cavity waveguides to achieve a slow light regime with a group index of more than 180 and a group velocity dispersion up to 10^7 times that of a conventional fiber. / QC 20100712

Photonic crystals

indium phosphide

photonic bandgap

Bloch modes

slow light

dispersion

coupled cavity waveguides

chemically assisted ion beam etching

lag effect

cavities

optical losses

carrier transport

carrier lifetimes

negative refraction

photonic bandstructure

Physics

Fysik

Análisis y mejoras en la evaluación de diversos términos de los modelos de evolución de playas en escalas de medio plazo

Requejo Landeira, María Soledad

12 July 2005

En la Tesis titulada "Análisis y mejoras en la evaluación de diversos términos de los modelos de evolución de playas en escalas de medio plazo" se desarrolla un modelo de evolución de playas de medio-largo plazo y se aplica a zonas de refracción-difracción. La Tesis se divide en tres secciones principales:SECCIÓN 2. Fundamentos y desarrollo del modelo de evolución de medio-largo plazoSe desarrolla y valida con datos de campo el modelo de evolución de playas de medio-largo plazo.SECCIÓN 3. Oleaje en rotura en zonas de refracción-difracción en los modelos de evolución de playasSe propone y valida un método para la determinación de las características del oleaje en rotura en zonas de refracción-difracción.SECCIÓN 4. Perfil de equilibrio en zonas de refracción-difracciónSe deriva una expresión analítica para definir el perfil de equilibrio en zonas de refracción-difracción y se calibra con datos de campo. / In this Thesis entitled "Analysis and improvements in the evaluation of several terms of medium-term beach evolution models" a medium-long term beach evolution model is developed and applied in refraction-diffraction areas. The Thesis is composed of the following main sections:SECTION 2. Fundaments and development of a medium-long term beach evolution modelIn this section a medium-long term beach evolution model is developed and validated based on field data.SECTION 3. Breaking wave characteristics in refraction-diffraction areas for beach evolution modelsIn this section a method to determine the breaking wave characteristics in refraction-diffraction areas is proposed and validated.SECTION 4. Equilibrium beach profile for refraction-diffraction areasIn this section an analytical expression to calculate the equilibrium beach profile for refraction-diffraction areas is derived, being calibrated based on field data.

refraction-diffraction areas

equilibrium beach profile

zonas de refracción-difracción

perfil de equilibrio

medium-term models

modelos de medio plazo

beach evolution models

modelos de evolución de playas

morfodinámica de playas

beach morphodynamic

Ingeniería Hidráulica

624

626

627

Stress response in the cyanobacterium Synechocystis sp. PCC 6803

Miranda, Helder

January 2011

Adaptation to environmental changes is important for the survival of living organisms. Under extreme abiotic conditions, organic molecules (such as lipids, proteins and nucleic acids) are prone to damage. Under these conditions stress response mechanisms are activated, either to prevent the source of damage or to promote the rapid turnover of damaged molecules. Like all photoautotrophic organisms, cyanobacteria are sensitive to high light intensity and oxidative stress, which induces damage to the photosynthetic apparatus. My thesis is divided in two subjects related to particular stress responses in the cyanobacterium Synechocystis sp. PCC 6803: 1) the role of Deg/HtrA proteases and 2) investigations on the small CAB-like proteins. Deg/HtrA proteases are ATP-independent serine endopeptidases with a characteristic C-terminal PDZ domain. These proteases are largely dispersed among living organisms, with many different functions, mostly involved in protein quality control. The genome of Synechocystis sp. PCC 6803 contains three genes coding for Deg/HtrA proteases: HtrA, HhoA and HhoB. These proteases are essential for survival under high light and heat stress, and may overlap in their functions. During my Ph.D. studies I focused on the identification of the precise localization of the Deg/HtrA proteases in the cyanobacterial cell, analyzed the biochemical properties of recombinant Synechocystis Deg/HtrA proteases in vitro and adopted proteomic and metabolomic approaches to study the physiological importance of these proteases. My data show that Deg/HtrA proteases are not only important in stress response mechanisms under adverse conditions, but are also involved in the stabilization of important physiological processes, such as polysaccharides biosynthesis and peptidoglycan turnover. The small CAB-like proteins (SCPs) belong to the light harvesting-like family of stress induced proteins and are thought to be involved in the photoprotection of the photosynthetic apparatus. Five small CAB-like proteins where identified in Synechocystis sp. PCC 6803 (ScpA-E). In my studies I identified another relative to the SCPs, LilA, which I found to be co-transcribed with ScpD. I also focused on the subcellular localization and identification of potential interaction partners of the SCPs.

Cyanobacteria

High light

heat stress

ROS

Photosynthesis

Photosystem II

Deg/HtrA proteases

small CAB-like proteins

Refraction-2D™

MALDI-TOF

2D-gel

GC-MS

PCA

OPLS-DA

EPS

S-layer

Biochemistry

Biokemi

Intraokularlinse Acri. Lyc 59 RET® mit unveränderter Brechkraft bei Silikonöltamponade / Acri. Lyc 59 RET ® IOL for unchanged refractive power with silicone oil tamponade

Baraki, Husnia

20 June 2011

No description available.

610 Medizin, Gesundheit

Medicine

Silikonöl

Refraktion

Pseudophakie

Anisometropie

diabetische Retinopathie

Acri. Lyc 59 RET®

Knopflochtechnik

silicone oil

refraction

pseudophakia

anisometropia

diabetic retinopathy

Acri. Lyc 59 RET ®

buttonhole technique

44 Medizin

M Medizin

Plasmonic devices for surface optics and refractive index sensing

Stein, Benedikt

03 July 2012

In this thesis devices for controlling the flow of surface plasmon polaritons are described. Dielectric and metallic nanostructures were designed for this purpose, and characterized by leakage radiation microscopy in real and in reciprocal spaces. Manipulation of surface plasmons by dielectric lenses and gradient index elements is presented, and negative refraction, steering and self-collimation of surface plasmons in one- and two-dimensional plasmonic crystals is demonstrated. The achieved degree of control was applied for routing of nanoparticles by optical forces, as well as for two methods of enhancing the figures of merit of plasmonic refractive index sensors, based on the one hand on Fano resonances natural to leakage radiation microscopy, and on the other hand on anisotropie plasmonic bandstructures.

Nano-optics

Surface plasmons

Leakage radiation microscopy

Metamaterials

Plasmonic crystals

Superprism effect

Negative refraction

Self-collimation

Optical micromanipulation

Refractive index sensing

Fano resonances

Cuba and the neobaroque: twentieth-century reformations of Cuban identity

Cruikshank, Stephen

27 June 2013

This thesis project explores the connection between Cuban identity and the twentieth-century Neobaroque. The paper approaches the Neobaroque as a concept that reoriginates or "refracts" culture, implying a relationship between Baroque forms and post-colonial Latin America that creates a transformation of cultural expression. Furthermore, the Neobaroque is seen relating to questions of cultural identity, post-colonialism, transculturation, mestizaje, and Latin American modernity. The Neobaroque's relevancy with Cuba is stipulated in twentieth-century writings of three Cuban authors known as the Cuban triumvirate: José Lezama Lima, Alejo Carpentier, and Severo Sarduy. Similar themes of these writers concerning the Neobaroque's connection with the urban environment of Havana as well as connections to José Martí's writing Nuestra América are highlighted as key components connecting the Neobaroque with Cuban culture. / Graduate / 0336 / 0626 / scruiksh@uvic.ca

Baroque

Barroco

Neo-baroque

Neobarroco

Alejo Carpentier

Colonialism

Counter-conquest

Culture

José Lezama Lima

José Martí

Latin America

Reformation

Severo Sarduy

Spanish

postmodernism

neo-colonialism

modernity

transculturation

mestizaje

transmodernity

refraction