Dissertations / Theses on the topic 'Refraction effects'

Traffic noise has been shown to have negative effects on exposed persons in the communities along highways. Noise from transportation systems is considered a nuisance in the U.S. and the government agencies require a determination of noise impacts for federally funded projects. There are several models available for assessing noise levels impacts. These models vary from simple charts to computer design models. Some computer models, i.e. Standard Method In Noise Analysis (STAMINA), the Traffic Noise Model (TNM) and the UCF Community Noise Model (CNM), have been used to predict geometric spreading, atmospheric absorption, diffraction, and ground impedance. However, they have largely neglected the atmospheric effects on noise propagation in their algorithms. The purpose of this research was to better understand and predict the meteorological effects on traffic noise propagation though measurements and comparison to acoustic theory. It should be noted that this represents an approach to incorporate refraction algorithms affecting outdoor noise propagation that must also work with algorithms for geometric spreading, ground effects, diffraction, and turbulence. The new empirical model for predicting atmospheric refraction shows that wind direction is a significant parameter and should be included in future modeling for atmospheric refraction. To accomplish this, the model includes a "wind shear" and "lapse rate" terms instead of wind speed and temperature as previously needed for input of the most used models. The model is an attempt to explain atmospheric refraction by including the parameters of wind direction, wind shear, and lapse rate that directly affect atmospheric refraction.
Ph.D.
Department of Civil and Environmental Engineering
Engineering and Computer Science
Environmental Engineering

Using observations from the Global Positioning System (GPS) satellites to determine a three dimensional (3-D) geodetic control network are considered. The repeatability of individual baselines and 3-D vector closures are examined, in order to investigate refraction effects on GPS networks. The effect on GPS baselines of a height bias in the reference point's coordinates is also investigated. A least squares adjustment program is developed and used to obtain a single consistent set of 3-D coordinates for the Tygerberg Test Network (TTN). The results of two GPS processing packages are compared by means of a conformal transformation. It is concluded that single frequency measurements produce better results than the ionospheric free observable on short baselines. Furthermore, a standard atmospheric model shows an improvement over the Marini model to account for tropospheric refraction.

ITC/USA 2010 Conference Proceedings / The Forty-Sixth Annual International Telemetering Conference and Technical Exhibition / October 25-28, 2010 / Town and Country Resort & Convention Center, San Diego, California
This document is focused on the examination of the tracking angular error due to the radio refraction for the target in low altitude of less than 5km and in low elevation angle. The real measured data using the GPS and the tracking systems of C- and S-band frequency in NARO Space centre, Korea are used for the analysis. The analysis shows couple of conclusions on the radio refraction effects; there are angular errors due to the radio refraction which is not to be neglected comparing the accuracy of the tracking system but to be considered for the precise measurement of the target position. Also, the refraction errors are dependent on the target altitude, but not on the frequency.

Thesis (M.S. in Physics)--Naval Postgraduate School, December 2009.
Thesis Advisor(s): Walters, Donald. Second Reader: Borden, Brett. "December 2009." Description based on title screen as viewed on January 27, 2010. Author(s) subject terms: Ocean waves, Laser Scattering, Absorption, Refraction. Includes bibliographical references (p. 55). Also available in print.

The torque exerted by a beam of polarized light on a half-wave plate which alters its state of polarization is calculated for several laser wavelengths and intensities using electromagnetic theory. The second-order torque that arises through the nonlinear interaction is formulated and the numerical values are calculated for the 42m crystal class. The experiment used to detect the existence of the torque is reviewed and a demonstration experiment is suggested.

Wind turbines have grown both in size and number in the past decades. The taller turbines has made it possible to place them in forest areas which is fortunate for a country like Sweden with lots of forest. An issue with wind turbines is the sound they produce. The sound mainly comes from the rotor blades when they pass through the air. The sound heard some distance away from the turbine is sometimes masked by ambient background noise such as wind induced sound in the vegetation, but this is not always the case. Noise concerns among some people living in the vicinity of wind turbines are sometimes raised. Sound propagation models are used to predict the wind turbine sound level at certain distance. It is important that these models are accurate. Sound propagation is greatly influenced by the meteorological conditions. These conditions change over the day and year and vary a lot depending on the terrain conditions. In the past, large meteorological propagation effects have been found for sound sources close to the ground. Higher elevated sources like wind turbines have not been studied as much. One reason for this is that wind turbines are a relatively new sound source. In this thesis the meteorological influence on the wind turbine sound propagation is studied. Continuous simultaneous acoustic and meteorological measurements are performed at two different wind turbine sites during two years to capture all variations in the weather. The two sites are covered by forest, one is flat and the other has shifting terrain. The sites are representative for many locations in Sweden and around the world. The differences between the measured and expected wind turbine sound levels are established for different meteorological categories. The median of all deviations within each meteorological category is then compared. During no snow cover conditions the variation of the median under different meteorological conditions is 6 dBA and during snow cover the variation of the median is 14 dBA. The variations are due to the combined effect of refraction, ground conditions and terrain shape. The deviations from an expected value are seen for all octave bands from 63 Hz to 1000 Hz but are found to most distinct at low frequencies of around 125Hz. Meteorological effects starts to be important somewhere between 400 m and 1000 m from wind turbines.The characteristic "swish" sound from wind turbines are also studied in this thesis. The swish sound or as it is also called, the amplitude modulated sound, is found to be more common under some meteorological conditions such as temperature inversions and downwind conditions. A metric for detection of amplitude modulation duration and strength is proposed. Amplitude modulation, is according to some, the reason why wind turbine sound is perceived as more annoying than other typical environmental sounds at the same sound level. The swishes probably increase the probability to hear the wind turbine sound in presence of other background noise.

Thesis (M.S. in Systems Engineering (Electronic Warfare))--Naval Postgraduate School, September 1990.
Thesis Advisor(s): Davidson, Kenneth L. Second Reader: Hershey, Scott H. "September 1990." Description based on title screen as viewed on December 29, 2009. Author(s) subject terms: Retractive conditions, prongation, Central America, radar, microwave. Includes bibliographical references (p. 60-61). Also available in print.

Photonic band gap materials, commonly referred to as photonic crystals (PCs), have been a topic of great interest for almost two decades due to their promise of unprecedented control over the propagation and generation of light. We report investigations of the optical properties of a new PC structure based upon a triangular lattice in which adjacent [i, j] rows of holes possess different properties, creating a superlattice (SL) periodicity. Symmetry arguments predicted and quot;band folding and quot; and band splitting behaviors, both of which are direct consequences of the new basis that converts the Brillouin zone from hexagonal (six-fold) to rectangular (two-fold). Plane wave expansion and finite-difference time-domain (FDTD) numerical calculations were used to explore the effects of the new structure on the photonic dispersion relationship of the SL PC. Electron beam lithography and inductively coupled plasma dry etching were used to fabricate 1 mm2 PC areas (lattice constant, a =358 nm and 480 nm) with hole radius ratios ranging from 1.0 (triangular) to 0.585 (r2/r1 = 73.26 nm/125.26 nm) on Silicon-on-insulator wafers. The effects of modifying structural parameters (such as hole size, lattice constant, and SL strength) were measured using the coupled resonant band technique, confirming the SL symmetry arguments and corroborating the band structure calculations. Analysis of the dispersion contours of the static SL (SSL) PC predicted both giant refraction (change in beam propagation angle of 110 for an 8 change in incident angle) and superprism behavior (change in beam propagation angle of 108 for a 12% change in normalized frequency) in these structures. Dynamic control of these refraction effects was also investigated by incorporating electro-optic and nonlinear materials into the SSL PC structure. Wave vector analyses on these structures predicted a change in beam propagation angle and gt;96 when the refractive index inside of the holes of the structure changed from n=1.5 to 1.7. Through this investigation, the first successful measurement of the band folding effect in multidimensional PCs as well as the first explicit measurement of the dielectric band of a 2D PC were reported. In addition, the SL PCs impact on new opto-electronic devices was explored.

Thesis (M.S. in Systems Engineering (Electronic Warfare))--Naval Postgraduate School, September 1990.
Thesis Advisor(s): Davidson, Kenneth L. ; Powell, James R. "September 1990." Description based on title screen as viewed on December 29, 2009. DTIC Descriptor(s): Frequency, Electronic Warfare, Aircraft, Airborne, Electronic Equipment, Microwave Equipment, Radar, Profiles, Ducts, Meteorology, Communication And Radio Systems, Refraction, Arabian Sea, Refractometers, Military Operations. DTIC Identifier(s): Radar interference, meteorological phenomena, theses. Author(s) subject terms: Refractivity, Arabian Sea refractive conditions, ESM airborne radar, airborne microwave refractometer (AMR), IREPS, EREPS. Includes bibliographical references (p. 96-97). Also available in print.

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

First time ionospheric refractive index values have been determined at mid latitudes using frequency switched SuperDARN plasma convection velocity estimates. Previous works have found a disparity between high latitude SuperDARN plasma convection velocities and those made by other devices. It was noted that the scattering volume’s refractive index was being neglected when estimating plasma convection velocities, meaning a correction factor was needed in order to more accurately reflect other measurements. Later work proposed a solution which implemented frequency switching in SuperDARN radars and determined a single correction factor based off of many years of data. We present case study driven research which applies the principles of these previous works to mid latitudes in an attempt to determine the refractive effect in mid latitude SuperDARN plasma convection velocity data by examining frequency switched quiet time ionospheric scatter. It was found that the 1/2 hop ionospheric scatter exhibited little to no measurable refractive effect (n ∼ 1), while the 11/2 hop ionospheric scatter tended to exhibit measurable refractive effects (n ∼ 0.7). This is then expanded to a storm-time 1/2 hop ionospheric scatter case study. It was again found that the refractive effects were nearly negligible (n ∼ 1), indicating that the 1/2 hop plasma convection velocities reported by mid latitude SuperDARN radars only require a very small correction factor, if any at all.
Master of Science

Thesis (M.S. in Systems Engineering) Naval Postgraduate School, September 1998.
Thesis advisor(s): Kenneth L. Davidson, David C. Jenn. "September 1998." Includes bibliographical references (p. 67-68). Also available online.

Thesis (M.S. in Meteorology and Physical Oceanography)--Naval Postgraduate School, September 2008.
Thesis Advisor(s): Davidson, Kenneth ; Pfeiffer, Karl. "September 2008." Description based on title screen as viewed on October 31, 2008. Includes bibliographical references (p. 73-74). Also available in print.

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.

Microphotonics has been offering a body of ideas to prospective applicationsin optics. Among those, the concept of photonic integrated circuits (PIC’s) has recently spurred a substantial excitement into the scientific community. Relisation of the PIC’s becomes feasible as the size shrinkage of the optical elements is accomplished. The elements based on photonic crystals (PCs) represent promising candidacy for manufacture of PIC’s. This thesis is devoted to tailoring of optical properties and advanced modelling of two types of photonic crystals: (Bi₃Fe₅O₁₂/Sm₃Ga₅O₁₂)^m and (TiO₂/Er₂O₃)^m potentially applicable in the role optical isolators and optical amplifiers, respectively. Deposition conditions of titanium dioxide were first investigated to maximise refractive index and minimise absorption as well as surface roughness of titania films. It was done employing three routines: deposition at elevated substrate temperatures, regular annealing in thermodynamically equilibrium conditions and rapid thermal annealing (RTA). RTA at 500 ^oC was shown to provide the best optical performance giving a refractive index of 2.53, an absorption coefficient of 404 cm⁻¹ and a root-mean-square surface roughness of 0.6 nm. Advanced modelling of transmittance and Faraday rotation for the PCs (Bi₃Fe₅O₁₂/Sm₃Ga₅O₁₂)⁵ and (TiO₂/Er₂O₃)⁶ was done using the 4 × 4 matrix formalism of Višňovský. The simulations for the constituent materials in the forms of single films were performed using the Swanepoel and Višňovský formulae. This enabled generation of the dispersion relations for diagonal and off-diagonal elements of the permittivity tensors relating to the materials. These dispersion relations were utilised to produce dispersion relations for complex refractive indices of the materials. Integration of the complex refractive indices into the 4 × 4 matrix formalism allowed computation of transmittance and Faraday rotation of the PCs. The simulation results were found to be in a good agreement with the experimental ones proving such a simulation approach is an excellent means of engineering PCs.

Aim: This study looks at the effect of orthokeratology on a number of biometric parameters and refractive error in an adult population. Method: Forty three myopic subjects were recruited to a twelve month study into the effects of orthokeratology on ocular biometry and refractive error. Two different back surface lens designs were applied right eye) pentacurve and left eye) aspheric. The aspheric design was chosen to more closely mimic the cornea's natural shape. Anterior and posterior apical radii and p-values; corneal thickness and anterior chamber depth were measured using the Orbscan IIz; together with ocular biometry by IOL Master and a standard clinical refraction. All measurements were repeated at one night, one week, one, three, six and twelve months. Refractive changes were analysed against biometric changes. Results: Twenty seven participants completed one month of lens wear. Twelve subjects completed twelve months of lens wear. Subjects with myopia ≤ -4.00DS were successfully treated with orthokeratology. Both anterior and posterior apical radii and p values were altered by orthokeratology. Corneal thickness changes were in agreement with previously published studies. Axial length and anterior chamber depth were unaffected by the treatment. Conclusion: Orthokeratology should be available as an alternative to laser refractive surgery. It is best restricted to myopes of up to -4.00DS with low levels of with the rule corneal astigmatism. The use of an aspheric back design contact lens did not produce a significant benefit over that of a pentacurve.

L'étude des milieux electromagnétiques a été, historiquement, une démarche passive, dans le sens que les structures sous étude étaient des structures naturelles, et la mission du physicien était de modéliser et comprendre leur comportement. Ce travail était principalement un travail d'observation. Pourtant, depuis une vingtaine d'années les avancées de la technologie moderne ont ouvert une possibilité qui avait pas été envisagé auparavant: la création de milieux artificiels, avec des propriétés nouvelles, voire exotiques. Dans ce mémoire je présente des résultats dans la modélisation des deux principales types de structures à naitre de cette revolution des matériaux electromagnétiques: les cristaux photoniques et les milieux composés à indice négatif. Les cristaux photoniques sont des structures dielectriques périodiques qui fonctionnent à des longueurs d'onde à l'échelle de leur périodicité. Leur forte dispersion spatiale donne lieu à des nombreux phénomènes et applications. En particulier, je présente des résultats concernant l'effet superprisme. Je montre que en utilisant des cristaux avec des cellules de base de forme rectangulaire il est possible d'améliorer le taux de transmission de la lumière incidente dans le cristal par rapport à d'autres géometries. Les métamatériaux composés sont des structures périodiques metallo-dielectriques fonctionnant à des longueurs d'onde plus grandes que leur périodicité. A des longueurs d'onde sufisamment grandes ces structures se comportent comme des milieux homogènes caractérisés par des paramètres tensoriels de permittivité et perméabilité. Ces paramètres peuvent prendre des valeurs en dehors du domaine naturellement disponible; notamment il est possible de concevoir des matériaux avec une permittivité et perméabilité simultanément négative, donnant lieu à un indice de refraction négatif. Cependant, il n'est pas toujours évident que un modèle homogène soit adapté pour decrire le comportement d'une structure donnée à une longueur d'onde donnée. C'est un aspect souvent passé sous silence dans la littérature. Dans ce travail je pose la question de savoir dans quelle mesure un matériau donné s'apprête à être décrit par un modèle homogène. Je propose une méthode qui permet de identifier des domaines de fréquence où une structure puisse être décrite quantitativement par des paramètres effectifs de permittivité et perméabilité. Ce travail ouvre la voie vers une compréhension plus détaillée de la transition entre comportement homogène et inhomogène dans les métamatériaux composés
The study of electromagnetic media has historically been an essentially passive endeavor, in the sense that the structures being studied were naturally occurring, and the physicist attempted to model and understand their behavior. The work was mainly one of observation. However, over the last two decades, the advances of modern technology have opened up a possibility which had not been imagined previously: the design of new, non-naturally occurring media with surprising, exotic, properties. The physicist no longer simply observed existing materials, but could design and create new ones. In this work I discuss the modeling of the two most important types of structures that have come out of the electromagnetic medium revolution: photonic crystals and composite metamaterials. Photonic crystals are periodic dielectric structures operating at wavelengths that are on the same scale as the periodicity. Their strong spatial dispersive properties have given rise to numerous applications. In particular I discuss the super-prism effect and show that by using crystals with rectangular unit cells it is possible to improve the transmission efficiency into such structures considerably. Composite metamaterials are periodic metal-dielectric structures operating at wavelengths larger than the structure period. If properly designed these structures behave as homogeneous media described by effective permittivity and permeability parameters. These effective parameters can be designed to take values in domains that are not available in naturally occurring media; notably it is possible to design composite metamaterials with simultaneously negative permittivity and permeability, or, in other words, with a negative refractive index. In the existing literature one commonly finds numerical or experimental studies claiming to have demonstrated the existence of a negative index of refraction in a given structure without providing sufficient arguments that an effective medium model is justified at the operating wavelength for the given structure. In this work I take a detailed look at the assumptions on which effective medium models rely and put forward a method for determining frequency domains where a given structure may or may not be accurately described by simply specifying effective medium parameters

Thesis (M.S. in Systems Engineering)--Naval Postgraduate School, September 2003.
Thesis advisor(s): Kenneth L. Davidson, David C. Jenn. Includes bibliographical references (p. 67-68). Also available online.

CoordenaÃÃo de AperfeiÃoamento de Pessoal de NÃvel Superior
This paper presents a numerical investigation of the propagation and cover (100fs) short pulse switching in a nonlinear coupler dual-core photonic crystal fiber with periodically modulated constructed fiber nonlinearity ( PMN - PFC ). Our main objective was to study the effect of amplitude modulations (AM) and frequency modulation (Wm) in the refractive index of nonlinearity (gamma) at a spread of Photonic Crystal Fiber with initially fixed range with frequency and amplitude periodically varying modulation. The implementation of modulation was inserted into dual-fiber couplers, which has been studied for its use as a whole using ultra switching optical switch and as an optical processor. Our simulations are taking into account the amplitude and frequency modulations of different PMN - PFC. Coupler for coupling whose length is Lc = 1.8 cm, the transmission characteristics of the compression factor , the crosstalk ( Xtalk ) and extinction rate ( Xratio ) levels were studied in the first descending order solitons of high energy pump for considering 2LC. An analysis of the reference (channel 2) channel was observed that the low frequency modulation is an increase in the switching power by increasing the transmission efficiency. For high modulation frequencies transmitted energy efficiency loses. The switching pulses are stronger in the low frequency and high amplitude modulation. The Xtalk is a function of the measurement made on the secondary channel (channel 1) revealed that this increase in unwanted high-frequency energy, to reduce the extent of amplitude modulation. In summary, we have demonstrated that the introduction of a non- linear profile leads to a frequency modulated PMN - PFC high variations in transmission efficiency , Xtalk , Xratio function of frequency and modulation amplitude and the input power.
Este trabalho apresenta uma investigaÃÃo numÃrica da propagaÃÃo e a comutaÃÃo de pulsos curtos capa ( 100fs ) em um acoplador nÃo-linear de dois nÃcleos de fibras de cristal fotÃnico construÃdos com periodicamente modulada a fibra nÃo-linearidade (PMN - PFC). Nosso principal objetivo foi estudar o efeito das modulaÃÃes de amplitude (Am) e modulaÃÃo da frequÃncia (Wm) no Ãndice de refraÃÃo da nÃo-linearidade (gama) em uma propagaÃÃo de Fibra de Cristais FotÃnicos, com o gama inicialmente fixo com frequÃncia e amplitude de modulaÃÃo variando periodicamente. A execuÃÃo da modulaÃÃo foi inserida em uma fibra com acopladores duplo, que tem sido estudados quanto à sua utilizaÃÃo como um todo utilizando ultracomutaÃÃo Ãptica e processador como interruptor Ãptico. Nossas simulaÃÃes estÃo levando em conta da amplitude e frequÃncia diferentes modulaÃÃes do PMN - PFC. Foram estudados acoplador para acoplamento cujo comprimento à Lc = 1,8 centÃmetros, as caracterÃsticas de transmissÃo, o fator de compressÃo, o crosstalk (Xtalk) e taxa de extinÃÃo ( Xratio ) nos nÃveis dos primeiros sÃlitons de ordem decrescente para altas energias bomba considerando 2LC. Uma anÃlise do canal de referÃncia ( canal 2 ) , observou-se que a baixas frequÃncias de modulaÃÃo ocorre um aumento na potÃncia de comutaÃÃo aumentando a eficiÃncia da transmissÃo. Para alta modulaÃÃo freqÃÃncias a eficiÃncia energÃtica transmitida perde. Os pulsos de comutaÃÃo sÃo mais fortes para a baixa frequÃncia e alta amplitude de modulaÃÃo. O Xtalk à uma funÃÃo da mediÃÃo feita no canal secundÃrio ( canal 1 ) , observou-se que este aumento de energia indesejados de alta frequÃncia, para reduzir a medida da modulaÃÃo de amplitude. Em resumo, temos demonstrado que a introduÃÃo de um perfil nÃo-linearidade leva a uma periodicidade modulada PMN - PFC a fortes variaÃÃes na eficiÃncia de transmissÃo, Xtalk , Xratio funÃÃo da freqÃÃncia e modulaÃÃo de amplitude e a potÃncia de entrada.

L' ATP es una molecula clau en el metabolisme cel.lular, actuant com a donador d'energia lliure i acoplant reaccions endergoniques i exergoniques. L'ATP es sintetitzat a la mitocondria en un proces anomenat fosforil.lacio oxidativa despres d'una serie de reaccions a la cadena de citocroms que es troba en la membrana interna de l'organel.la. La font d'energia necessaria per aquesta sintesi s'obte en les cel.lules animals dels nutrients de l'ingestio, i de la llum solar en les plantes. Existeix una via alternativa de sintesi d'ATP extramitocondrial, la glicolisi, que s'inicia amb la fosforilacio de la glucosa per l'enzim hexokinasa.
Interaccio llum-materia
L'energia electromagnetica l'ona de la qual oscil.la en una longitud d'ona de nanometres es anomenada llum. En aquestes frequencies, l'energia promou excitacio electronica de certs atoms i molecules. Existeix una interaccio diferent de la llum amb molecules, produida per el camp electromagnetic que per definicio la llum provoca en qualsevol medi. El camp electric resultant desplaca els electrons dels enllacos quimics produint una polaritzacio del medi sense que existeixi absorcio de l'energia. Aquest es un mecanisme interactiu que existeix sempre, i es l'unic que es dona en molecules que son transparents (no absorbeixen) per a una determinada frequencia de la llum, com es el cas de l'ATP per l'energia visible i infravermella propera.
Experiments, resultats i discussio
Quan l'ATP es excitat amb fotons ultraviolats, es produiex una fluorescencia en longituts d'ona visibles. L'io magnesi s'ha utilitzat per estudiar com la llum visible i infravermella propera produiex un desplacament de carregues electriques a la molecula d'ATP.
La construccio d'un interferometre de Michelson ha servit per observar l'interaccio no absortiva de la llum i l'ATP. La mesura directa de l'index de refraccio d'una solucio d'ATP dona informacio sobre les caracteristiques electriques del medi. L'observacio de que aquest index canvia despres d'irradiar la solucio amb longituds d'ona visibles i infravermelles properes, confirmen que la llum provoca canvis electrics significatius en l'ATP.
En aquest treball tambe s'ha estudiat el comportament bioquimic de l'ATP irradiat quant forma part de dues reaccions quimiques diferents: la de la luciferina-luciferasa i la de la hexoquinasa. En tots dos casos, l'us d'aquest ATP irradiat ha produit una alteracio dels parametres cinetics estudiats, V0 i k en la reaccio de la luciferina-luciferasa, i km i vmax en la reaccio de l'hexoquinasa.
Conclusions
Aquesta interaccio no absortiva de la llum amb l'ATP es la primera descrita per a una biomolecula. El mecanisme aporta noves dades per explicar els efectes observats en el metabolisme cel.lular despres de l'irradiacio d'organismes, teixits i cultius cel.lulars amb llum visible i infravermella propera.
ATP is a key molecule in cellular metabolism. In this thesis, I examined the effects of visible (635 and 655 nm) and near-infrared (810 and 830 nm) light on ATP in solution. I also examined were the biochemical behavior of light-exposed ATP in the luciferine-luciferase reaction and hexokinase reaction, the initial step in glycolysis that begins extra mithocondrial ATP synthesis. Irradiated groups in the luciferine-luciferase reaction showed an improvement in the kinetic parameters V0 and k, and more ATP molecules reacted with the enzyme when they were excited by light. When irradiated ATP was added to the hexokinase reaction, the experimental groups showed significant differences in the Michaelis-Menten kinetic parameters (km for ATP and vmax) and the rate of product synthesis was greater. Changes in both reactions were wavelength and dose dependant.
When ATP was excited with UV photons, it fluoresced. This fluorescence decreased when Mg2+ was added, probably because the ion binds the phosphates, which are the part of the molecule responsible for light emission. Irradiating the ATP-Mg2+ solution with 655 nm and 830 nm light increased the fluorescence resulting from a displacement of charges in the phosphor-oxygen bond that repels Mg2+.
The refraction of light in an ATP solution was observed by the Michelson interferometer and by directly measuring the refractive index. The refractive index changed after red and near-infrared light interaction due to a change in the electrical permittivity of the medium.
Since ATP in water is transparent to visible and near-infrared light, and is therefore not a chromophore for those wavelengths, I conclude that the observed light interaction with ATP is not due to photon absorption but to the electromagnetic disturbance produced by the light, which leads to a polarization of the dielectric molecule that is ATP.
This interaction of visible and near-infrared electromagnetic energy with ATP offers new perspectives for explaining light interaction at subcellular level.

In der vorliegenden Arbeit wird die neuartige Mikroskopiemethode der Ptychographie für die Untersuchung photorefraktiver Materialien genutzt. Photorefraktive Materialien zeichnen sich durch die Generation lichtinduzierter Brechungsindexänderungen aus. Die Ptychographie bietet die Möglichkeit, neben der generierten Brechungsindexänderung im photorefraktiven Material auch die für die Generation genutzte Intensitätsverteilung des Laserstrahls zu bestimmen. Es wird sowohl die Abhängigkeit der Brechungsindexänderung von der Zeit der Generation als auch die Abhängigkeit von der Polarisation des Lasers gemessen. Durch den Vergleich der gewonnenen Werte mit einer numerischen Simulation des photorefraktiven Effekts werden mikroskopische Parameter der lichtinduzierten Ladungswanderung ermittelt. Zudem wird aus der polarisationsabhängigen ptychographischen Messung das Raumladungsfeld und die korrespondierende Ladungsdichte im Material berechnet. Die Ptychographie liefert damit einen neuen Zugang zum quantitativen Verständnis der Photorefraktivität
In the present thesis the novel microscopy technique of ptychography is applied to the investigation of photorefractive materials. Photorefractive materials exhibit a change of the refractive index due to the exposure to light. The method of ptychography determines the refractive index change of the material together with the intensity distribution of the laser beam that was used for its generation. In one part of the experiment the time dependence of the refractive index change versus the generation time is investigated, in the other part of the experiment the dependence of the refractive index change to the polarisation of the laser beam is examined. Microscopic parameters of the photorefractive charge migration are determined with the utilisation of a numerical simulation of the photorefractive effect and its comparison with the measurement. Finally, the whole space charge field with the corresponding space charge density is calculated from a set of ptychographic measurements of one refractive index change with different polarisation directions of the laser. The presented experiments and their evaluation show, that the method of ptychography opens a new possibility for a quantitative understanding of the photorefractive effect

Much concern has been expressed about the ability of the visual display terminal to provide adequate stimuli for accommodation. As a result it has been hypothesized that an observer may have to continually refocus to maintain accommodation on the display and this contributes to the visual fatigue experienced by VDT users. The increased use of multicolor CRTs in the workplace adds yet another factor, chromatic aberration, to affect the observers' accommodation to information presented on the CRT. Two experiments were run to determine the effect of viewing characters of one chromaticity and purity on a background of another chromaticity or purity or chromaticity and purity. The observer's accommodation response was continuously sampled throughout the presentation of each target/background combination. Mean accommodation response and the standard deviation of the mean accommodation response were then calculated to ascertain the effect the target background combination had on the observers' accommodation response. The observers' were also required to perform a visual performance task for each target/background combination. The data collected indicate that chromatic characters when observed on chromatic background do not provide a strong stimulus for accommodation. Mean changes in the observers accommodation response were all within the depth of field except when characters were viewed on blue backgrounds. The variability in the observers accommodation response was not found to be a good predictor of image quality where only color contrast exists between foreground and surround. Task performance was highly correlated with effective contrast between the target and background as quantified by uniform color space modeling.
Ph. D.

Impairment of stereoacuity is common in the elderly population and is found to be a risk factor for falls. The purpose of these experiments was to extend knowledge regarding impairment of binocular vision and adaptive gait. Firstly using a 3D motion analysis system to measure how impairment of stereopsis affected adaptive gait during a negotiation of a step, secondly by determining which clinical stereotest was the most reliable for measuring stereoacuity in elderly subjects and finally investigating how manipulating the perceived height of a step in both binocular and monocular conditions affected negotiation of a step. In conditions of impaired stereopsis induced by acutely presented monocular blur, both young and elderly subjects adopted a safety strategy of increasing toe clearance of the step edge, even at low levels of monocular blur (+0.50DS) and the effect was greater when the dominant eye was blurred. The same adaptation was not found for individuals with chronic monocular blur, where vertical toe clearance did not change but variability of toe clearance increased compared to full binocular correction. Findings indicate stereopsis is important for accurately judging the height of a step, and offers support to epidemiological findings that impaired stereoacuity is a risk for falls. Poor agreement was found between clinical stereotests. The Frisby test was found to have the best repeatability. Finally, a visual illusion that caused a step to be perceived as taller led to increased toe elevation. This demonstrates a potential way of increasing toe clearance when stepping up and hence increase safety on stairs.

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Variability of the MABL and its effect on the electromagnetic (EM) refractive structure around the Greenland Sea marginal ice zone were examined. Rawinsonde profiles and surface observations collected from 3 ships during MIZEX-87(20 March-11 April) served as the data set. A program, developed to calculate the refractivity at each vertical level of the rawinsonde profiles, also identified the levels at which trapping, superrefraction and subrefraction occurred. Temporal studies showed that a higher incidence of anomalous refractive layers occurred during periods when the region was under the influence of high pressure. More than 50% of the time, trapping and super-refractive layers were attributed to development of a capping inversion just above the MABL during these periods. Spatial studies showed that the refractive structure varied relative to distance from the ice edge as did the depth of the MABL. An upward slope in refractive layer heights was observed from the ice toward the open water. Significant spatial inhomogeneity was observed over horizontal ranges of less than 100 km. This was attributed to both the large-scale synoptic forcing affecting the region and to variations in the surface fluxes of heat and moisture over the ice and over the water. A range-dependent ray trace model developed at the Naval Ocean Systems Center was used to show how the ray paths of EM waves vary with a changing refractive structures. Keywords: Air water interactions, Greenland Sea, Atmospheric refraction, Electromagnetic wave propagation, Heat flux, Sea ice. Theses. (EDC)
http://archive.org/details/temporalspatialv00grot
Lieutenant, United States Navy

The author of this thesis concentrates his attention on quantum optical properties of some artificial electromagnetic media, such as quantum coherent atomic vapors (various multilevel electromagnetically induced transparency vapors) and negative refractive index materials, and suggests some possible ways to manipulate wave propagations inside the artificial electromagnetic materials based on quantum coherence and quantum vacuum effects. In Chapters 1 and 2, the author reviews the previous papers on quantum coherence as well as the relevant work such as electromagnetically induced transparency (EIT), atomic population trapping and their various applications. The basic concepts of quantum coherence (atomic phase coherence, quantum interferences within atomic energy levels) and quantum vacuum are introduced, and the theoretical formulations for treating wave propagations in quantum coherent media are presented. In Chapter 3, the author considers three topics on the manipulation of light propagations via quantum coherence and quantum interferences: i) the evolutional optical behaviors (turn-on dynamics) of a four-level N-configuration atomic system is studied and the tunable optical behavior that depends on the intensity ratio of the signal field to the control field is considered. Some typical photonic logic gates (e.g. NOT and NOR gates) are designed based on the tunable four-level optical responses of the N-configuration atomic system; ii) the destructive and constructive quantum interferences between two control transitions (driven by the control fields) in a tripod-type four-level system is suggested. The double-control quantum interferences can be utilized to realize some photonic devices such as the logic-gate devices, e.g., NOT, OR, NOR and EXNOR gates; iii) some new quantum coherent schemes (using EIT and dressed-state mixed-parity transitions) for realizing negative refractive indices are proposed. The most remarkable characteristic (and advantage) of the present scenarios is such that the isotropic left-handed media (with microscopic structure units at the atomic level) in the optical frequency band can be achieved. Quantum vacuum (the ground state of quantized fields) can exhibit many interesting effects. In Chapter 4, we investigate two quantum-vacuum effects in artificial materials: i) the anisotropic distribution of quantum-vacuum momentum density in a moving electromagnetic medium; ii) the angular momentum transfer between quantum vacuum and anisotropic medium. Such quantum-vacuum macroscopic mechanical effects could be detected by current technology, e.g., the so-called fiber optical sensor that can measure motion with nanoscale sensitivity. We expect that these vacuum effects could be utilized to develop sensitive sensor techniques or to design new quantum optical and photonic devices.In Chapter 5, the author suggests some interesting effects due to the combination of quantum coherence and quantum vacuum, i.e., the quantum coherent effects, in which the quantum-vacuum fluctuation field is involved. Two topics are addressed: i) spontaneous emission inhibition due to quantum interference in a three-level system; ii) quantum light-induced guiding potentials for coherent manipulation of atomic matter waves (containing multilevel atoms). These quantum guiding potentials could be utilized to cool and trap atoms, and may be used for the development of new techniques of atom fibers and atom chips, where the coherent manipulation of atomic matter waves is needed.In Chapter 6, we conclude this thesis with some remarks, briefly discuss new work that deserves further consideration in the future, and present a guide to the previously published papers by us.
QC 20100810

L'etude des populations des quasiparticules (excitons, polaritons, etc. ), des durees de vie de leurs etats fondamentals et excites est faite par mesures de transmission induite et de gain a l'aide d'une technique "pompe et sonde". L'elargissement asymetrique de la raie d'absorption excitonique est explique par les collisions elastiques entre excitons. Les variations de l'indice de refraction sont expliquees par la dynamique des polaritons de type photonique

The purpose of this study was to assess the effects of refractive vision correction through laser surgery (LASIK & PRK) of adults of working age (22-55). This study examined and compared the symptoms of depression, stress perception, and self-esteem prior to surgery and one month after surgery, when sufficient healing has occurred. Research has shown that vision impairment has been reported to be one of the 10 most significant causes of disability in the United States, and, even though clinicians are encouraged to assess emotional response to vision loss, the psychological factors that that play a role in adjustment to vision loss have not been sufficiently studied.

Ferroelectric oxides are a group of advanced electronic materials with a wide variety of properties useful in applications such as memory devices, resonators and filters, infrared sensors, microelectromechanical systems, and optical waveguides and modulators. Among the oxide perovskite-structured ferroelectric thin film materials, sodium potassium niobate or Na0.5K0.5NbO3 (NKN) has recently emerged as one of the most promising materials in radio frequency (rf) and microwave applications due to high dielectric tenability and low dielectric loss. This thesis presents results on growth and structural, optical, and electrical characterization of NKN thin films. The films were deposited by rf-magnetron sputtering of a stoichiometric, high density, ceramic Na0.5K0.5NbO3 target onto single crystal LaAlO3 (LAO), Al2O3 (sapphire), SrTiO3, and Nd:YAlO3, and polycrystalline Pt80Ir20 substrates. By x-ray diffractometry, NKN films on c-axis oriented LaAlO3, SrTiO3 and Nd:YAlO3 substrates were found to grow epitaxially, whereas films on r-cut sapphire and polycrystalline Pt80Ir20 substrates were found to be preferentially (00l) oriented. The surface morphology was explored using atomic force microscopy. Optical and waveguiding properties of the Na0.5K0.5NbO3/substrate heterostructures were characterized using prism-coupling technique. Sharp and distinguishable transverse magnetic and electric propagation modes were observed for NKN thicknesses up to 2.0 μm. The extraordinary and ordinary refractive indices were calculated together with the birefringence of the NKN material. The electro-optic effect in transverse geometry was measured in transmission, where the effective linear electro-optic response was determined to reff = 28 pm/V for NKN/Al2O3 with an applied dc field up to 18 kV/cm. The ferroelectric state in NKN films on Pt80Ir20 at room temperature was indicated by a polarization loop with saturated polarization as high as 33.4 μC/cm2 at 700 kV/cm, remnant polarization of 10 μC/cm2, and coercive field of 90 kV/cm. Current-voltage characteristics of vertical Au/NKN/PtIr capacitive cells and planar Au/NKN/LAO interdigital capacitors (IDCs) showed very good insulating properties, with the leakage current density for an NKN IDC on the order of 30 nA/cm2 at 400 kV/cm. Rf dielectric spectroscopy demonstrated low loss, low frequency dispersion, and high voltage tunability. At 1 MHz, NKN/LAO showed a dissipation factor tan δ = 0.010 and a tunability of 16.5 % at 200 kV/cm. For the same structure the frequency dispersion was Δεr = 8.5 % between 1 kHz and 1 MHz.
QC 20100928

Le but de ce mémoire est de valider la microscopie électro-optique Pockels comme méthode de mesure et de cartographie de champ électrique aux échelles micro et nanométriques. Une première partie est dédiée à la description de l'instrumentation d'imagerie mise en jeu. Nous développons ensuite son application en physique et biophysique. Une étude de couches minces monocristallines de 2-methyl-4-nitroaniline (MNA) a permis de sonder localement la variation de champ électrique appliqué, mais aussi d'étudier l'orientation des axes optiques de ce cristal dans l'espace. A l'échelle sub-longueur d'onde nous avons pu isoler la modulation électro-optique de la diffusion de lumière associée à une nanoparticule isolée de KTiOPO4 (KTP) d'une taille de 150nm. La dépendance polaire du signal Pockels sur la polarisation lumineuse incidente a permis de prédire l'orientation de la maille cristalline du KTP dans l'espace. De telles sondes de champs électriques nanométriques peuvent avoir de nombreuses applications en nano-photonique. Dans le cas d'entité biologiques comme des neurones, la propagation de l'information est assurée par celle d'un champ électrique dans les membranes plasmiques. Dans une première étape, nous nous sommes intéressés à l'étude de bicouches artificielles dopées par un colorant non-linéaire, le DI-8-ANEPPS. Un signal électro-optique Pockels y a été mesuré pour la première fois. La caractérisation de l'insertion du colorant dans la membrane a été aussi discutée. La grande sensibilité à la mesure d'un champ électrique assurée par l'interféromètre permet d'envisager des possibilités d'applications dans des cellules vivantes. Des expériences menées sur des cellules de type PC12 ont montré l'existence d'un signal optique qui est associé à la distribution spatiale du champ électrique. L'ensemble de ces travaux montrent que la microscopie électro-optique s'avère constituer un outil important pour la physique et biophysique.

L’Institut Clément Ader Albi (ICAA) et l’Institut von Karman (IVK) mènent depuis un certain nombre d’années des travaux sur la radiométrie IR dans le but de faire de la thermographie quantitative (mesure de température vraie sans contact). Ces travaux ont permis d’explorer les potentialités de plusieurs bandes spectrales : 8-12µm, 3-5µm et plus récemment la bande 0,75-1,7µm (proche IR) à l’aide de caméras CCD (Si) ou VisGaAs. Les travaux effectués dans ce domaine spectral ont permis de mettre en évidence un certains nombre de perturbations renforcées par les hautes températures(T>800°C). Cette thèse aborde de façon détaillée le traitement d’un certain nombre de grandeurs d’influence liées à la mesure de différents paramètres dans le domaine du proche IR mais également étendus aux domaines du visible et de l’IR. La première de ces grandeurs est l’émissivité dont le traitement a déjà été abordé par d’autres études. La seconde grandeur d’influence touche plus particulièrement à la localisation des points chauds sur l’objet et la distorsion du champ de température apportée par les effets convectifs présents autour d’un objet à haute température, elle est le coeur de cette thèse. En effet, lorsqu’une pièce chaude se trouve dans un milieu ambiant beaucoup plus froid, il se crée un gradient de température et donc d’indice de réfraction autour de la pièce. Or les caméras travaillant dans les différentes bandes spectrales vont être plus ou moins sensibles à ces variations d’indices de réfraction du fait de la dépendance de l’indice optique avec la longueur d’onde et de la résolution spatiale de la caméra utilisée. Ce phénomène, appelé effet mirage, entraîne inévitablement une déformation des informations spatiales reçues par la caméra. Le but de cette thèse a donc été d’estimer et de proposer une première approche pour corriger l’erreur faite sur la mesure de température et/ou de déformation faites par caméras sur des pièces chaudes. La démarche générale du travail a donc été dans un premier temps de calculer le champ de température autour de l’objet considéré en se ramenant d’abord à des cas simplifiés. On en a déduit alors le champ de réfraction entraînant une « déformation » de l’objet, en faisant le lien entre T et n. Cette étape correspond à l’approche numérique de notre étude. Cette étape numérique a été réalisé à l’aide d’un outil de lancer de rayons développée à l’ICA. L’approche expérimentale a consisté à l’utilisation de méthodes telle que la BOS (Background Oriented Schlieren), la PIV, la srtioscopie afin de déduire le champ de déplacements provoqué par le panache convectif. Ces résultats ont été comparés à la méthode numérique et ceci pour différentes longueurs d’ondes. Enfin, une stratégie de correction d’images perturbées a été abordé à l’aide de méthodes telles que la transformée d’Abel inverse afin de remonter au champ d’indice de réfraction 2D axisymétrique à partir d’une déformation plane.

Dans cette these, nous avons etudie les proprietes optiques non lineaires de troisieme ordre de la molecule et du cristal de 4-(n,n diethylamino)-nitrostyrene (deanst). Nous avons fait des mesures d'absorption a deux photons de la molecule de deanst en solution par ellipsometrie kerr. Nous avons modelise le spectre non lineaire ainsi obtenu a partir du spectre d'absorption lineaire et d'un unique parametre: la variation de moment dipolaire entre les etats s#0 et s#1. Nous avons monte un banc z scan qui permet la mesure de l'indice de refraction dependant de l'intensite et de l'absorption non lineaire aux deux longueurs d'onde 1,064 m et 532 nm. Les mesures a 1,064 m en solutions ont montre que la variation d'indice de refraction est dominee par l'effet d'orientation moleculaire et que l'absorption a deux photons est faible a cette longueur d'onde. Les mesures effectuees a 532 nm dans une bande d'absorption a un photon de la solution de deanst mettent en evidence de fortes non-linearites dues a la creation d'une population dans un etat excite. Ces mesures montrent qu'aux concentrations elevees, les molecules isolees ne sont pas les seules a jouer un role dans les proprietes non lineaires des solutions. Les mesures z scan sur le cristal de deanst revelent l'anisotropie de ses proprietes non lineaires. De plus, l'absorption non lineaire n'est pas uniquement interpretable par un phenomene de troisieme ordre et necessite l'intervention d'un coefficient non lineaire supplementaire. L'analyse des non-linearites du cristal de deanst doit etre envisagee dans le cadre d'un modele excitonique: le modele du gaz oriente en considerant une hyperpolarisabilite dominee par l'element tensoriel le long du grand axe de la molecule ne rend pas compte des non-linearites du cristal

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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES
The response of a material to an incident radiation can be described in terms of the susceptibility of the medium. In an atomic vapor, this susceptibility strongly depends on the frequency of the radiation and can vary over several orders of magnitude near the resonance. When a material is illuminated by light whose electric field is intense, the Kerr effect may become significant, showing a linear variation of the refractive index as a function of the intensity of the laser beam. Several techniques allow the measurement of this nonlinear effect. One of the simplest and most accurate is the z-scan technique. It consists in moving the medium to be probed along the axis of a focused laser beam. The transmittance through an aperture is measured as a function of the cell position and the obtained curve allows one to determine the nonlinear refractive index (n2) of the material. In this work, we investigate the nonlinear refractive index of a vapor of cesium atoms. We used the z-scan technique for various detunings around the Cs D2 transition (wavelength at 852 nm). To monitor the frequency of the laser, we simultaneously used an auxiliary saturated absorption setup and a Fabry-Perot analyzer. Through simple relationships between n2 and the aperture transmittance, we obtained a value for n2 as a function of the laser detuning. A theoretical model was developed to be compared to our experimental results. We used the density matrix formalism to calculate n2, taking into account the velocity distribution of the atoms in the calculation of the matrix elements. We started by treating the atoms as two-level systems, which allows us to test different limits of velocity integration. We then carried out a more realistic model for the D2 line of Cs, considering one fundamental level and three excited levels. We showed that for each hyperfine transition, the third-order fundamental-excited coherence depends on the population of the excited states as well as on the coherence created between the excited levels. To our knowledge, our experimental results are the first measurements of n2 for a cesium vapor, using the z-scan technique. The measured values of n2 are consistent with our theoretical calculations.
A resposta de um meio material à radiação incidente pode ser descrita em termos da susceptibilidade ótica desse meio. Em vapores atômicos, essa susceptibilidade depende fortemente da freqüência da radiação e pode variar, em torno da ressonância, por várias ordens de grandeza. Quando um material é iluminado por um feixe de luz cujo campo elétrico é muito intenso, evidencia-se o efeito Kerr, ou seja, o próprio índice de refração do material varia linearmente com a intensidade do feixe laser. Para medir esse efeito não linear da polarização do material, existem varias técnicas na literatura. Uma das mais simples e precisa é a varredura z (z-scan). O z-scan consiste em deslocar o meio a ser estudado ao longo do eixo de um feixe laser focalizado. Mede-se então a transmitância através de uma abertura, em função da posição da célula. A partir dessa curva de transmitância, é possível determinar o índice de refração não linear do material. Neste trabalho, investigamos a dependência espectral do índice de refração não linear do vapor atômico de césio. Realizamos experimentos com a técnica z-scan para várias dessintonizações na linha D2 (comprimento de onda de 852 nm). O monitoramento da freqüência do laser é feito através de uma montagem auxiliar de absorção saturada e de uma cavidade Fabry-Pérot. Utilizando relações simples entre n2 e a transmitância na abertura, obtivemos um valor de n2 para cada dessintonização. Para interpretar os resultados experimentais, usamos o formalismo de matriz densidade para calcular teoricamente o n2. No cálculo dos elementos da matriz densidade, deve-se levar em consideração a distribuição de velocidades dos átomos. Iniciamos nosso modelo tratando os átomos como sistemas de dois níveis, com o objetivo de compreender os diferentes limites da integração em velocidade. Em seguida passamos para um modelo mais realista para a linha D2 do Cs envolvendo um nível fundamental e três excitados. Mostramos que, para cada transição hiperfina, a coerência fundamental-excitada de terceira ordem depende de efeito de população dos estados excitados e da coerência criada entre eles. Nossos resultados experimentais são, até onde sabemos, as primeiras medidas usando z-scan para a obtenção do indice de refração de vapor de césio. Os valores medidos de n2 são condizentes com os nossos cálculos teóricos.

In the quest for ultrathin materials compatible with CMOS technology for all-optical signal processing applications in integrated photonics, graphene appears to be a promising candidate, with broadband1 optical properties and a high and broadband optical nonlinearity. However, researchers do not agree on the value of its nonlinear refractive index, and commonly used characterization methods do not provide a clear picture of the optical nonlinearity, in terms of its tensor nature or relaxation time. In the first part of this thesis, apart from the previously used Z-scan method, we have also used the ultrafast Optical Kerr Effect method coupled to Optical Heterodyne Detection (OHD-OKE) for the characterization of the third order optical nonlinearity of monolayer CVD graphene at telecom wavelengths. This method allows to separately measure the real and the imaginary part of the third-order nonlinearity, as well as their dynamics. With respect to the Z-scan method, OHD-OKE presents the major advantage of being robust against inhomogeneities of the sample. As such, we have demonstrated that graphene has a negative nonlinear refractive index, contrary to previously reported results. In addition, we have studied the real and imaginary part of graphene’s nonlinearity, when electrostatic gating is applied to change the chemical potential of graphene. Furthermore, we have proposed an enhanced version of the OHD-OKE method, together with the appropriate theoretical framework, in order to extract the tensor elements of the nonlinearity including the out-of-plane tensor elements. In particular, we have measured separately the time response of the two main tensor elements of the nonlinear susceptibility and we have experimentally verified that the out-of-plane tensor components are negligible. In the second part of this thesis, we have investigated, from an experimental point of view, the use of the nonlinear optical response of graphene for all-optical switching applications in integrated photonics. Namely, we have designed simple silicon nitride waveguide structures that constitute basic building blocks of switching devices, which were then fabricated and covered by graphene patches. Finally, we have experimentally tested the graphene-covered structures at low and high power levels and discussed the results.
Doctorat en Sciences de l'ingénieur et technologie
info:eu-repo/semantics/nonPublished

Sonder la matière en utilisant des nanoparticules luminescentes nécessite une compréhension de chaque processus pouvant modifier leurs propriétés optiques. Cette thèse se focalise sur l'influence de l'environnement diélectrique sur la luminescence de deux types de nanoobjets : (i) des boites quantiques colloïdales (QDs), et (ii) des nanobâtonnets d'or. L'objectif est d'évaluer les potentialités de ces nanostructures comme sondes locales de l'environnement diélectrique.L'évolution de la dynamique de relaxation de QDs dans différents environnements diélectriques est interprétée en terme d'indice de réfraction effectif local. Cette étude montre qu'une analyse détaillée de la sensibilité des QDs à l'environnement permet de les utiliser comme nanosondes biologiques d'indice de réfraction. Nous présentons également une nouvelle méthode pour l'encapsulation de QDs en matrice diélectrique solide, à travers le dépôt par laser pulsé. Les émetteurs peuvent être protégés par des films minces et subir des perturbations non-destructives et réversibles de leur environnement proche, à l'échelle de la particule unique, tout en analysant la dynamique de fluorescence. Finalement, la sensibilité de la résonance plasmon de nanobâtonnets d'or à l'approche d'une interface diélectrique est également sondée, puis comparée a celle des boites quantiques
Probing systems using luminescent nanoparticles requires the understanding of all the processes that influence the luminescence properties. This thesis focuses on the influence of the dielectric environment on the luminescence of two types of nanoparticles : (i) colloidal quantum dots (QDs), and (ii) gold nanorods. The aim of this work is to evaluate the potential of these nanostructures to act as local probes of the dielectric environment. The evolution of the relaxation dynamics of QDs in various dielectric media is interpreted in terms of local effective refractive index. This work shows that a detailed analysis of the sensitivity of the QDs to the environment allows their use as biological nanoprobes of refractive index. We furthermore present a new method for the encapsulation of QDs in a solid dielectric matrix, using pulsed laser deposition. The emitters can be incorporated in thin films and their local environment can be modified in a reversible and non-destructive way, while the emission dynamics is investigated at the single emitter level. Finally, the sensitivity of the surface plasmon resonance of gold nanorods to an approching dielectric interface is also studied, and compared to the one found for QDs

Les traitements antireflets (AR) sont très largement utilisés pour améliorer la transmission de systèmes optiques composés de hublots, lentilles, de lames séparatrices,… Dans cette thèse les gammes spectrales visées sont le visible étendu [400-1800nm] et le moyen infrarouge [3,7-4,8µm]. La méthode de nanostructuration par dépôts de films minces utilisant des techniques PVD en incidence oblique (Oblique Angle Deposition) a été choisie car elle permet d’envisager des AR hautes performances sur une large gamme de longueur d’onde, via un procédé industrialisable. L’introduction de porosité via le contrôle des angles de dépôt est utilisée pour nanostructurer l’architecture de chaque couche et de l’empilement ; méthode permettant de modifier et d’optimiser les propriétés optiques des couches constituantes en vue d’un design complet optimal. Une cartographie des indices effectifs accessibles par OAD a été dégagée concernant les trois matériaux déposés (TiO2, SiO2 et Ge). Mais les propriétés optiques de ces couches nanostructurées diffèrent largement de celles des couches denses du fait de la présence d’anisotropie, de gradient d’indice, de diffusion et d’absorption. A partir de caractérisations microstructurales, chimiques et optiques poussées (AFM, MEB, MET, tomographie FIB, tomographie MET, EDX, EELS, spectrophotométrie et ellipsométrie généralisée) un modèle optique analytique plus complexe et couplé à des analyses par éléments finis (FDTD) est présenté. L’ensemble du travail a permis d’élaborer par OAD de simples antireflet bicouches démontrant déjà de hauts niveaux de transmission, supérieurs aux traitements AR existants (interférentiel) ou en développement (Moth-eyes)
Anti-reflective (AR) coatings are widely used to improve the transmission of optical systems composed of window, lenses, separating filters,... In this thesis, the spectral ranges targeted are the extended visible [400-1800nm] and the mid infrared [3.7-4.8µm]. Thin film deposition nanostructuring method using oblique angle deposition (oblique angle deposition) PVD technique was chosen because it allows high performance AR to be considered over a wide wavelength range, by an industrial process. The introduction of porosity with the control of deposition angle is used to nanostructure the architecture of each layer and stack; a method for modifying and optimizing the optical properties of the constituent layers for optimal complete design. A mapping of the effective indices accessible by OAD has been identified for the three materials deposited (TiO2, SiO2 and Ge). However optical properties of these nanostructured layers differ greatly from those of dense layers due to the presence of anisotropy, index gradient, diffusion and absorption. Based on advanced microstructural, chemical and optical characterizations (AFM, SEM, TEM, FIB tomography, TEM tomography, EDX, EELS, spectrophotometry and generalized ellipsometry) a more complex analytical optical model coupled with finite element analyses (FDTD) is presented. All the work has enabled OAD to develop simple two-layer anti-reflective coatings that already demonstrate high levels of transmission, superior to existing (interferential) or work in progress (Moth-eyes) AR treatments

L’objectif principal de ce travail est d’étudier in-situ et ex-situ l’interaction du dioxyde de carbone (CO2) avec les films minces de polystyrène et les surfaces par deux techniques principales : la réflectivité des rayons X (RRX) et l’ellipsométrie.Dans cette thèse, nous abordons l’étude des propriétés physiques de films de polystyrène (PS) à l’état confiné (films minces) et leur évolution lors de leur exposition à du CO2 sous pression. Nous démontrons par RRX et par ellipsométrie sur les mêmes films que la densité et l’indice de réfraction augmentent quand l’épaisseur du film diminue. Nous confirmons la diminution de Tg pour des films de PS d’épaisseur inférieure à 70 nm selon la loi empirique de Keddie [1]. Ces deux résultats pourraient signifier que les films ultraminces présentent une certaine organisation des chaines.Nous abordons ensuite le comportement des films ultra minces de PS exposés à du CO2 en fonction de la pression de CO2 par réflectivité de rayons X (RRX) faite au rayonnement synchrotron (ESRF ligne ID10B). Nous suivons in-situ le gonflement et le dégonflement du film mince d’épaisseur 7 nm lors de la pressurisation et la dépressurisation du CO2. Par calcul de l’évolution de la densité électronique dans le film, nous mettons en évidence l’existence d’une pression de transition vitreuse Pg et d’un gonflement rémanent lié à la présence de molécules de CO2 piégées dans le film [2].Nous proposons par la suite une étude ex-situ par RRX du gonflement et de l’évolution au cours du temps des films de PS gonflés. Nous observons que les films minces présentent une plus grande capacité de gonflement et dégonflement au cours du temps par opposition aux films plus épais. Nous constatons que ce phénomène est fortement dépendant du taux de dépressurisation. En effet, nous constatons que la dépressurisation rapide renforce considérablement, non seulement le gonflement du film, mais aussi son dégonflement au cours du temps. Nous mettons alors en évidence que le taux de dépressurisation régit clairement l'état final des films gonflés, à savoir l’état métastable ou l’état vitreux.Finalement, nous étudions l’influence du gonflement du film par le CO2 sur l’évolution de la température de transition vitreuse. Cette étude est effectuée principalement par ellipsométrie. Nous montrons que ces films qui ne présentaient qu’une valeur unique de Tg avant exposition, présentent après exposition trois valeurs de Tg. En suivant l’évolution de l’épaisseur de ces films gonflés en fonction de la température, nous proposons des réponses qui peuvent expliquer les différentes Tg observées. En outre, nous mettons en évidence l’existence du CO2 stocké dans les films. Après un recuit au dessus de 150°C, les films reprennent le même comportement qu’avant exposition au CO2 qui est loin d’être l’état d’équilibre du polymère massique. Nous confirmons par ce fait l’existence de fortes forces de rappel dans les films ultraminces qui les ramènent vers leurs états initiaux de non équilibre. Ce résultat est à rapprocher de celui concernant l’évolution de la Tg due au confinement dans les films ultraminces avant exposition
The aim of this work is to study in-situ and ex-situ interaction of carbon dioxide (CO2) with thin films of polystyrene and surfaces by two main techniques: the X-ray reflectivity (XRR) and ellipsometry.In this thesis, we address the study of the physical properties of polystyrene films (PS) in the confined state (thin films) and their evolution when exposed to CO2 pressure. We demonstrate by XRR and ellipsometry in the same films that the density and the refractive index increase when the film thickness decreases. We confirm the decrease of Tg for PS films of thickness less than 70 nm according to the empirical law of Keddie [1]. Both results could mean that ultrathin films have a certain organization of channels.We then discuss the behavior of PS ultra thin films exposed to CO2 as a function of CO2 pressure by XRR made at synchrotron radiation (ESRF ID10B line). We monitor in situ the swelling and deswelling of the 7 nm thin film thickness upon pressurization and depressurization of CO2. By calculating the evolution of the electron density in the film, we highlight the existence of a glass transition pressure Pg and a residual swelling due to the presence of CO2 molecules trapped inside the film [2].We propose then an ex-situ XRR study of swelling and kinetic of deswelling for PS swollen films. We observe that the thin films have a higher swelling and deswelling capacity compare to the thicker films. We note that this phenomenon is highly dependent to the depressurization rate. Indeed, we find that the rapid depressurization greatly enhances not only the swelling of the film, but also its deswelling over time. We then highlight that the rate of depressurization clearly governs the final state of swolen films, to say the metastable state or glassy state.Finally, we study the effect of film swelling by CO2 on the evolution of the glass transition temperature. This study is carried out mainly by ellipsometry. We show that these films which showed only a single Tg value before exposure, after exposure has three values of Tg completely independent of film thickness. By following the thickness evolution of these swollen films as a function of temperature, we offer answers that can explain the different Tg values observed. In addition, we highlight the existence of CO2 stored in these films. After annealing above 150 ° C, the films show the same behavior as before exposure to CO2 which is far from the equilibrium state of the bulk polymer. We confirm therefore the existence of strong restoring forces in ultrathin films that bring them back to their initial states of non-equilibrium. This result presents similarities to that concerning the evolution of the Tg due to confinement in ultrathin films before exposure

Etude entre 0 et dollar GPA, permettant de mettre en évidence une transition de basse pression à 1,6 GPA; mesures de l'absorption optique et de l'indice de réfraction, de la diffusion Raman et de la diffusion Brillouin; analyse des variations a la transition. Description satisfaisante des variations des modes de vibration au moyen d'un modèle de dynamique réticulaire a forces centrales.

[EN] Phononic crystals are artificial materials formed by a periodic arrangement of inclusions embedded into a host medium, where each of them can be solid or fluid. By controlling the geometry and the impedance contrast of its constituent materials, one can control the dispersive properties of waves, giving rise to a huge variety of interesting and fundamental phenomena in the context of wave propagation. When a propagating wave encounters a medium with different physical properties it can be transmitted and reflected in lossless media, but also absorbed if dissipation is taken into account. These fundamental phenomena have been classically explained in the context of homogeneous media, but it has been a subject of increasing interest in the context of periodic structures in recent years as well. This thesis is devoted to the study of different effects found in sonic and phononic crystals associated with transmission, reflection and absorption of waves, as well as the development of a technique for the characterization of its dispersive properties, described by the band structure. We start discussing the control of wave propagation in transmission in conservative systems. Specifically, our interest is to show how sonic crystals can modify the spatial dispersion of propagating waves leading to control the diffractive broadening of sound beams. Making use of the spatial dispersion curves extracted from the analysis of the band structure, we first predict zero and negative diffraction of waves at frequencies close to the band-edge, resulting in collimation and focusing of sound beams in and behind a 3D sonic crystal, and later demonstrate it through experimental measurements. The focusing efficiency of a 3D sonic crystal is limited due to the strong scattering inside the crystal, characteristic of the diffraction regime. To overcome this limitation we consider axisymmetric structures working in the long wavelength regime, as a gradient index lens. In this regime, the scattering is strongly reduced and, in an axisymmetric configuration, the symmetry matching with acoustic sources radiating sound beams increase its efficiency dramatically. Moreover, the homogenization theory can be used to model the structure as an effective medium with effective physical properties, allowing the study of the wave front profile in terms of refraction. We will show the model, design and characterization of an efficient focusing device based on these concepts. Consider now a periodic structure in which one of the parameters of the lattice, such as the lattice constant or the filling fraction, gradually changes along the propagation direction. Chirped crystals represent this concept and are used here to demonstrate a novel mechanism of sound wave enhancement based on a phenomenon known as "soft" reflection. The enhancement is related to a progressive slowing down of the wave as it propagates along the material, which is associated with the group velocity of the local dispersion relation at the planes of the crystal. A model based on the coupled mode theory is proposed to predict and interpret this effect. Two different phenomena are observed here when dealing with dissipation in periodic structures. On one hand, when considering the propagation of in-plane sound waves in a periodic array of absorbing layers, an anomalous decrease in the absorption, combined with a simultaneous increase of reflection and transmission at Bragg frequencies is observed, in contrast to the usual decrease of transmission, characteristic in conservative periodic systems at these frequencies. For a similar layered media, backed now by a rigid reflector, out-of-plane waves impinging the structure from a homogeneous medium will increase dramatically the interaction strength. In other words, the time delay of sound waves inside the periodic system will be considerably increased resulting in an enhanced absorption, for a broadband spectral range.
[ES] Los cristales fonónicos son materiales artificiales formados por una disposición periódica de inclusiones en un medio, pudiendo ambos ser de carácter sólido o fluido. Controlando la geometría y el contraste de impedancias entre los materiales constituyentes se pueden controlar las propiedades dispersivas de las ondas. Cuando una onda propagante se encuentra un medio con diferentes propiedades físicas puede ser transmitida y reflejada, en medios sin pérdidas, pero también absorbida, si la disipación es tenida en cuenta. La presente tesis está dedicada al estudio de diferentes efectos presentes en cristales sónicos y fonónicos relacionados con la transmisión, reflexión y absorción de ondas, así como el desarrollo de una técnica para la caracterización de sus propiedades dispersivas, descritas por la estructura de bandas. En primer lugar, se estudia el control de la propagación de ondas en transmisión en sistemas conservativos. Específicamente, nuestro interés se centra en mostrar cómo los cristales sónicos son capaces de modificar la dispersión espacial de las ondas propagantes, dando lugar al control del ensanchamiento de haces de sonido. Haciendo uso de las curvas de dispersión espacial extraídas del análisis de la estructura de bandas, se predice primero la difracción nula y negativa de ondas a frecuencias cercanas al borde de la banda, resultando en la colimación y focalización de haces acústicos en el interior y detrás de un cristal sónico 3D, y posteriormente se demuestra mediante medidas experimentales. La eficiencia de focalización de un cristal sónico 3D está limitada debido a las múltiples reflexiones existentes en el interior del cristal. Para superar esta limitación se consideran estructuras axisimétricas trabajando en el régimen de longitud de onda larga, como lentes de gradiente de índice. En este régimen, las reflexiones internas se reducen fuertemente y, en configuración axisimétrica, la adaptación de simetría con fuentes acústicas radiando haces de sonido incrementa la eficiencia drásticamente. Además, la teoría de homogenización puede ser empleada para modelar la estructura como un medio efectivo con propiedades físicas efectivas, permitiendo el estudio del frente de ondas en términos refractivos. Se mostrará el modelado, diseño y caracterización de un dispositivo de focalización eficiente basado en los conceptos anteriores. Considérese ahora una estructura periódica en la que uno de los parámetros de la red, sea el paso de red o el factor de llenado, cambia gradualmente a lo largo de la dirección de propagación. Los cristales chirp representan este concepto y son empleados aquí para demostrar un mecanismo novedoso de incremento de la intensidad de la onda sonora basado en un fenómeno conocido como reflexión "suave". Este incremento está relacionado con una ralentización progresiva de la onda conforme se propaga a través del material, asociado con la velocidad de grupo de la relación de dispersión local en los planos del cristal. Un modelo basado en la teoría de modos acoplados es propuesto para predecir e interpretar este efecto. Se observan dos fenómenos diferentes al considerar pérdidas en estructuras periódicas. Por un lado, si se considera la propagación de ondas sonoras en un array periódico de capas absorbentes, cuyo frente de ondas es paralelo a los planos del cristal, se produce una reducción anómala en la absorción combinada con un incremento simultáneo de la reflexión y transmisión a las frecuencias de Bragg, de forma contraria a la habitual reducción de la transmisión, característica de sistemas periódicos conservativos a estas frecuencias. En el caso de la misma estructura laminada en la que se cubre uno de sus lados mediante un reflector rígido, la incidencia de ondas sonoras desde un medio homogéneo, cuyo frente de ondas es perpendicular a los planos del cristal, produce un gran incremento de la fuerza de
[CAT] Els cristalls fonònics són materials artificials formats per una disposició d'inclusions en un medi, ambdós poden ser sòlids o fluids. Controlant la geometría i el contrast d'impedàncies dels seus materials constituents, és poden controlar les propietats dispersives de les ondes, permetent una gran varietatde fenòmens fonamentals interessants en el context de la propagació d'ones. Quan una ona propagant troba un medi amb pèrdues amb propietats físiques diferents es pot transmetre i reflectir, però també absorbida si la dissipació es té en compte. Aquests fenòmens fonamentals s'han explicat clàssicament en el context de medis homogenis, però també ha sigut un tema de creixent interés en el context d'estructures periòdiques en els últims anys. Aquesta tesi doctoral tracta de l'estudi de diferents efectes en cristalls fonònics i sònics lligats a la transmissió, reflexió i absorció d'ones, així com del desenvolupament d'una tècnica de caracterització de les propietats dispersives, descrites mitjançant la estructura de bandes. En primer lloc, s'estudia el control de la propagació ondulatori en transmissió en sistemes conservatius. Més específicament, el nostre interés és mostrar com els cristalls sonors poden modificar la dispersió espacial d'ones propagants donant lloc al control de l'amplària per difracció dels feixos sonors. Mitjançant les corbes dispersió espacial obtingudes de l'anàlisi de l'estructura de bandes, es prediu, en primer lloc, la difracció d'ones zero i negativa a freqüències próximes al final de banda. El resultat és la collimació i focalització de feixos sonors dins i darrere de cristalls de so. Després es mostra amb mesures experimentals. L'eficiència de focalització d'un cristall de so 3D està limitada per la gran dispersió d'ones dins del cristall, que és característic del règim difractiu. Per a superar aquesta limitació, estructures axisimètriques que treballen en el règim de llargues longituds d'ona, i es comporten com a lents de gradient d'índex. En aquest règim, la dispersió es redueix enormement i, en una configuració axisimètrica, a causa de l'acoblament de la simetría amb les fonts acústiques que radien feixos sonors, l'eficiència de radiació s'incrementa significativament. D'altra banda, la teoria d'homogeneïtzació es pot utilitzar per a modelar, dissenyar i caracteritzar un dispositiu eficient de focalització basat en aquests conceptes. Considerem ara una estructura periòdica en la qual un dels seus paràmetres de xarxa, com ara la constant de xarxa o el factor d'ompliment canvia gradualment al llarg de la direcció de propagació. Els cristalls chirped representen aquest concepte i s'utilitzen ací per a demostrar un mecanisme nou d'intensificació d'ones sonores basat en el fenòmen conegut com a reflexió "suau". La intensificació està relacionada amb la alentiment progressiva de l'ona conforme propaga al llarg del material, que està associada amb la velocitat de grup de la relació de dispersió local en els diferents plànols del cristall. Es proposa un model basat en la teoria de modes acoblats per a predir i interpretar este efecte. Dos fenòmens diferents cal destacar quan es tracta d'estructures periòdiques amb dissipació. Per un costat, al considerar la propagació d'ones sonores en el plànol en un array periòdic de capes absorbents, s'observa una disminució anòmala de l'absorció i es combina amb un augment simultani de reflexió i transmissió en les freqüències de Bragg que contrasta amb la usual disminució de transmissió, característica dels sistemes conservatius a eixes freqüències. Per a un medi similar de capes, amb un reflector rígid darrere, les ones fora del pla incidint l'estructura des de un medi homogeni, augmentaran considerablement la interacció. En altres paraules, el retràs temporal de les ones sonores dins del sistema periòdic augmentarà significativament produint un augmen
Cebrecos Ruiz, A. (2015). Transmission, reflection and absorption in Sonic and Phononic Crystals [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/56463
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