31 |
Možnosti osvětlení vozidel pro zvýšení bezpečnosti silničního provozu / Possibilities of Vehicle Lighting to Increase Road Transport SafetyBalharová, Gabriela January 2012 (has links)
This master’s thesis deals with the possibilities of illumination of motor vehicles. Thesis is divided into two sections, from which the first discusses precisely the possibilities of lighting of motor vehicles at the present time. What are the modern lighting techniques, that can be found on the market and what is their impact on safety enhancement in road traffic. Second section is about the practical measurement of low and high beam afterglow. This measurement is being compared between two types of headlamps, namely halogen headlights and xenon headlights. Part of the measurement is as well measurement of illumination intensity precisely for these headlights. The output of measurement is the creation of own illumination intensity diagrams and afterglow diagrams of particular headlights, in comparison to isolux diagrams provided by the headlights manufacturer. Consequently are solved the issues about utilization of the isolux diagrams in expert praxis.
|
32 |
Studium procesů v dohasínajícím plazmatu / Study of Post-Discharge ProcessesSoural, Ivo January 2011 (has links)
The decaying plasma was studied by the optical emission spectroscopy. DC discharge created at 45 – 200 mA in Pyrex and Quartz tubes in flowing regime was used. The emission of three nitrogen spectral systems (1st and 2nd positive and 1st negative) were studied in time evolution for pressures of 500 – 5 000 Pa at two wall temperatures – ambient and liquid nitrogen (150 K inside the decaying plasma). Results showed that all three nitrogen systems (respectively N2(B, v), N2(C, v) and N2+(B, v) states as their origins) had their population maxima called pink-afterglow in the afterglow part. These maxima decreased with the increase of pressure for all systems, and moved to the later decay time. Maxima increased with discharge current (respectively power) and moved to shorter time. Populations at temperature of 150 K were measured due to the experimental arrangement from 17 ms, only, and thus pink aftergow maximum wasn’t observed (only at 5 000 Pa some maximum was recognized). Populations were smaller at 150 K that populations measured at laboratory temperature at the middle decay time (50-100 ms). At the late time, the populations were higher at lower temperature at lower pressure. Higher shifts (in intensity and decaytime) of pink afterglow maxima were observed in Quartz tube in comparison with their values in Pyrex tube. Besides the populations, rotational temperatures of selected bands of three observed spetral systems (for 1st negative 0-0 band, 1st positive 2-0 band and for 2nd positive 0-2 band) were measured. Rotational temperatures were monitored from presumption that this kind of temperature is equal to temperature of neutral gas (at local thermodynamic equilibrium). Results from 1st negative and 1st positive system showed strong decreasing of rotational temperatures up to about 10 ms at post-discharge begin, then temperatures were constant up to 20 ms of decay time and after that they grew up. Temperatures increased with the increase of current. The part with decreased temperature correlated with pink-afterglow part of post-discharge. Unfortunately, rotational temperatures of 2nd positive system had bad reproducibility and the time profile shape was opposite. Experimental results were compared with numerical kinetic model created by group of prof. Vasco Guerra at Instituto Supetior Técnico in Portugal. Several sets of conditions for simulation at 500 and 1 000 K in active discharge were applicable for the calculation corresponding to the experiment. Comparison of numerical simulation and experimental data done for N2(B) state demonstrated that maxima populations in pink afterglow are depended on the temperature difference between active discharge and post discharge. Maxima populations were supposed in pink afterglow disappeared if the same temperatures in active and post discharges were supposed. Temperature in active discharge is higher at higher apllied power, as it was showed from rotational temperatures observation. The results clearly showed that real temperature profile must be included into the kinetic model.
|
33 |
Transport neutraler angeregter Spezies im AfterglowBeier, Matthias 12 December 1997 (has links)
Das Afterglow tritt am Übergang vom Plasma zur Gasphase auf.
Die dominierende aktive Spezies im Afterglow sind metastabil angeregte
Neutralteilchen. Der Abbau der Metastabilen erfolgt in drei verschiedenen
Prozessen: dem radiativen Zerfall, den Quenching-Stößen sowie
der Relaxation in Stößen mit Oberflächen. Potentielle
Anwendungsmöglichkeiten des Afterglows für Schichtabscheidung
und Oberflächenmodifizierung werden diskutiert. Zur theoretischen
Beschreibung des strömenden Afterglows wurde ein Collisional
Radiative Modell entwickelt, welches die Reflexion angeregter Spezies an
Oberflächen berücksichtigt. Als Diagnostikmethoden wurden die
optische Emissionsspektroskopie (OES), die Chemolumineszenz sowie die
Langmuir-Sondenmessungen eingesetzt, um die Konzentration metastabil
angeregter Spezies zu bestimmen. Es wurde der Einfluß von
konstruktiven und äußeren Paramentern auf die Konzentration
metastabil angeregter Spezies im Afterglow untersucht. Es zeigt sich,
daß unter den gegebenen Bedingungen die Quenching-Stöße
der dominierende Verlustprozeß im Afterglow sind. Die Parameter
Druck, Strömungsgeschwindigkeit und Länge des Afterglows
können zu einem Skalierungsparameter zusammengefaßt werden,
der zur online-Prozeßregulierung verwendet werden kann. Es werden
|
34 |
Spektroskopické studium dohasínajících výbojů v dusíku a jeho směsích / Spectroscopic Study of Post-Discharges in Nitrogen and its MixturesMazánková, Věra January 2009 (has links)
Presented thesis gives results obtained during the spectroscopic observations of post –discharges of the pure nitrogen plasma with small oxygen admixture and in the nitrogen – argon mixture and the effect of the pink afterglow in it. The DC discharge in the flowing regime has been used for the plasma generation. The decaying plasma was study by optical emission spectroscopy, mainly in the range of 300–800 nm. The first positive, second positive, first negative nitrogen spectral system and NO spectral systems were observed in measured spectra. The band head intensities of these bands have been studied in the dependencies on experimental conditions. Simultaneously, the relative vibrational populations on the given nitrogen states have been calculated. Two discharge tubes made from different materials (PYREX glass and QUARTZ glass) were used in the case of nitrogen plasma containing low oxygen traces (up to 0.2 %). These experiments have been carried out at two wall temperatures for the determination of the temperature effect on the post-discharge. The discharge tube around the observation point was kept at the ambient temperature (300 K) or it was cooled down to 77 K by liquid nitrogen vapor. The total gas pressure of 1 000 Pa and the discharge current of 200 mA were conserved for all these experiments. The relative populations of electronic states were calculated in the dependence on the post-discharge time. The dependencies on oxygen concentration were given, too. The results showed no simple dependence of vibrational populations on oxygen concentration. Generally, slight increase of neutral nitrogen states populations was observed with the increase of oxygen concentration. These observations were well visible due to the intensity of nitrogen pink afterglow effect that was well visible at all oxygen concentrations. The pink afterglow maximal intensity was reached at about 5–10 ms at the wall temperature of 300 K in the PYREX tube. The molecular ion emission was strongly quenched by the oxygen and as this was dominant process for the pink afterglow emission the pink afterglow effect disappears at oxygen concentration of about 2000 ppm. The temperature and wall material influences were observed, too. The post-discharge in nitrogen argon mixtures was studied only in the PYREX tube at the ambient wall temperature of 300 K. The power dissipated in an active discharge was constant of 290 kW. The experimental studies had two new parameters – total gas pressure (500 Pa – 5 000 Pa) and the argon concentrations that were varied in the range of 0–83 %. Also in this case the dependencies of relative intensities of the bands given above were obtained and further the relative populations of electronic states as a function of decay time, total gas pressure and on argon concentration were obtained. The pink afterglow effect was observed at all applied discharge powers and total gas pressures. At the highest argon concentrations, especially at lower pressure, the pink afterglow effect disappeared. The presented experimental work is one of the hugest sets of experiments in the nitrogen with oxygen traces and in nitrogen-argon mixtures. These data can be used as a very good fundament for the further studies using wide numeric modeling of the post-discharge kinetic processes.
|
35 |
Modification de films de graphène dans la post-décharge en flux de plasmas micro-ondes d’azote à pression réduiteRobert Bigras, Germain 08 1900 (has links)
Ce projet de thèse porte sur le traitement de films de graphène dans la post-décharge en flux de plasmas micro-ondes d’azote à pression réduite. Différentes considérations de contamination de surface des échantillons se sont avérées cruciales pour ce travail. Par exemple, en présence d’hydrocarbures, les traitements dans les différentes régions de la post-décharge montrent des profils de production de dommages, d’incorporation d’azote et de fonctionnalisation de contaminants distincts. Le traitement agressif qu’offre la post-décharge proche résulte en la formation de complexes amorphes graphène-hydrocarbures responsables d’une forte hausse de la teneur en azote (jusqu’à 49%) pour des désordres modérés (D:G = 1.3). Pour les traitements dans la post-décharge lointaine, les hydrocarbures jouent un rôle de couche protectrice permettant une incorporation monotone (jusqu’à 18%) à très faible dommage (D:G < 0.3). Les espèces azotées sont néanmoins faiblement liées de sorte que le transfert vers un substrat de SiO2 engendre une perte importante (> 80%) de la teneur en azote. Des considérations d’inhomogénéité de surface des films de graphène ont motivé le développement d’une nouvelle méthode d’analyse des cartographies Raman obtenues par un imageur hyperspectral. L’étude des spectres Raman au niveau des domaines versus aux joints de grains ont permis de mettre en évidence un mécanisme d’auto-réparation des joints de grains relié à l’anisotropie de la migration des adatomes de carbone en surface. L’accumulation de ceux-ci aux joints de grains mène à une émission d’adatomes responsable de l’annihilation de paires de Frenkel. Dans les plasmas azotés, il s’avère que ce mécanisme est également responsable d’une incorporation sélective d’azote aux domaines de croissance du graphène. Lorsque amorphisé, le dopage sélectif s’estompe puisque le transport des adatomes de carbone aux joints de grains, ainsi que l’accumulation essentielle au processus d’auto-réparation, deviennent entravés. Finalement, la recombinaison en surface d’atomes d’azote et la désexcitation de métastables N2(A) sont identifiés comme principaux agents pour la production de dommages dans la post-décharge en flux d’azote. Un modèle d’incorporation impliquant la formation de dommages et l’adsorption d’atomes d’azote est proposé. En présence d’espèces oxydantes dans la post-décharge d’azote, la formation de dommages demeure limitée par les populations de N et de N2(A). / This thesis project deals with the treatment of graphene films in the flowing afterglow of microwave nitrogen plasmas at reduced pressure. Various surface contamination considerations were found to be crucial for this work. For example, in the presence of hydrocarbons, the treatments in the different regions of the afterglow show distinct damage production, nitrogen incorporation and contaminant functionalization profiles. The aggressive treatment offered by the early afterglow results in the formation of amorphous graphene-hydrocarbon complexes responsible for a sharp increase in the nitrogen content (up to 49%) at moderate disorders (D: G = 1.3). For the treatments in the late afterglow, the hydrocarbons act as a protective layer, allowing a monotonic incorporation (up to 18%) with very low damage (D: G < 0.3). Nitrogenous species are found to be weakly bound so that transfer to an SiO2 substrate generates a significant loss (>80%) of the nitrogen content. Considerations of surface inhomogeneity of graphene films have motivated the development of a new analysis method of Raman maps obtained by hyperspectral imager. The study of Raman spectra at growth domain versus grain boundary has revealed a self-healing mechanism of grain boundaries linked to the anisotropy of the migration of carbon adatoms at the surface. The accumulation of these at grain boundaries leads to an emission of atoms responsible for the annihilation of Frenkel pairs. In nitrogenous plasmas, this mechanism is also found to be responsible for the selective incorporation of nitrogen into the growth domains of the graphene. For amorphous graphene, selective doping fades as the transport of carbon adatoms to grain boundaries, and therefore the accumulation essential to the self-healing process, becomes impeded. Finally, the surface recombination of nitrogen atoms and the de-excitation of metastable N2(A) are identified as the main agents defect generation in the nitrogen flowing afterglow. An incorporation model involving the formation of damage and adsorption of nitrogen atoms is proposed. In the presence of oxidizing species in the nitrogen afterglow, damage formation remains limited by populations of N and N2(A).
|
36 |
Modification des propriétés optiques de nanofils à base de GaN par plasma N2/O2Ferreira, Jason 07 1900 (has links)
Une sonde électrostatique de Langmuir cylindrique a été utilisée pour caractériser une post-décharge d’un plasma d’ondes de surface de N2-O2 par la mesure de la densité des ions et électrons ainsi que la température des électrons dérivée de la fonction de distribution en énergie des électrons (EEDF). Une densité maximale des électrons au centre de la early afterglow de l’ordre de 1013 m-3 a été déterminée, alors que celle-ci a chuté à 1011 m-3 au début de la late afterglow. Tout au long du profil de la post-décharge, une densité des ions supérieure à celle des électrons indique la présence d’un milieu non macroscopiquement neutre. La post-décharge est caractérisée par une EEDF quasi maxwellienne avec une température des électrons de 0.5±0.1 eV, alors qu’elle grimpe à 1.1 ±0.2 eV dans la early afterglow due à la contribution des collisions vibrationnelles-électroniques (V-E) particulièrement importantes. L’ajout d’O2 dans la décharge principale entraîne un rehaussement des espèces chargées et de la température des électrons suivi d’une chute avec l’augmentation de la concentration d’O2. Le changement de la composition électrique de la post-décharge par la création de NO+ au détriment des ions N2+ est à l’origine du phénomène. Le recours à cette post-décharge de N2 pour la modification des propriétés d’émission optique de nanofils purs de GaN et avec des inclusions d’InGaN a été étudié par photoluminescence (PL). Bien que l’émission provenant des nanofils de GaN et de la matrice de GaN recouvrant les inclusions diminue suite à la création de sites de recombinaison non radiatifs, celle provenant des inclusions d’InGaN augmente fortement. Des mesures de PL par excitation indiquent que cet effet n’est pas attribuable à un changement de l’absorption de la surface de GaN. Ceci suggère un recuit dynamique induit par la désexcitation des métastables de N2 suite à leur collision à la surface des nanofils et la possibilité de passiver les défauts de surface tels que des lacunes d’azote par l’action d’atomes de N2 réactifs provenant de la post-décharge. L’incorporation d’O2 induit les mêmes effets en plus d’un décalage vers le rouge de la bande d’émission des inclusions, suggérant l’action des espèces d’O2 au sein même des nanostructures. / A cylindrical electrostatic Langmuir probe was used to characterize the flowing afterglow of a N2-O2 surface wave plasma. The spatial distribution of the number density of positive and electrons as well as the EEDF were measured. A maximum of the number density of electrons in the mid 1013 m-3 was obtained in the center of the early afterglow, while it decreased at 1011 m-3 early in the late afterglow, thus indicating non-macroscopically neutral media all along the flowing afterglow. It is characterized by an EEDF close to a Maxwellian with an electron temperature of 0.5±0.1 eV, while it increased at 1.1±0.2 eV in the early afterglow due to the contribution of important vibration-electron collisions. After addition of small amounts of O2 in the main N2 microwave discharge, the charged particles densities and electron temperature first strongly increased then decreased with increasing O2 concentration. A change in the charged population in the afterglow by the creation of NO+ to the detriment of the N2+ ions is responsible of this phenomenon. This N2 flowing afterglow was later used for plasma-induced modification of pure GaN nanowires and InGaN/GaN dot-in-a-wire heterostructures and characterized by PL. While the band edge emission from GaN nanowires and the GaN matrix of the InGaN/GaN nanowires strongly decreased due to the creation of non-radiative recombination centers in the near-surface region, the emission from the InGaN inclusions strongly increased. PL excitation measurements show that this increase cannot be explained by a plasma-induced shift of the GaN absorption edge. Instead a dynamical annealing process induced by the desexcitation of N2 metastables following their collision with the nanowire surface and the passivation of surface defects such as nitrogen vacancies by the highly reactive nitrogen atoms in the afterglow are responsible of the increase of the PL intensity. The addition of O2 gives the same results as the pure N2 treatment, but a redshift of the emission band related to the InGaN inclusions is also observed, suggesting an important contribution of the oxygen species.
|
37 |
Измерительный канал лазерной стимуляции для изучения физических процессов в широкозонных наноструктурах : магистерская диссертация / Laser stimulation measuring channel for investigation of physical properties in wide-gap nanostructuresСиленкова, Е. А., Silenkova, E. A. January 2021 (has links)
Объекты разработки и исследования: канал лазерной стимуляции для измерения электрофизических параметров структуры Ti/TiO2-НТ/Au и канал оптической стимуляции для исследования люминесцентных свойств нанопорошка гексагонального нитрида бора. Цель работы – разработать измерительные каналы лазерной стимуляции исследуемых образцов на основе контроля и управления параметрами излучения в различных режимах в ходе экспериментальных исследований оптически стимулированных и родственных процессов в широкозонных наноструктурированных материалах. В результате работы разработан канал лазерной стимуляции для существующего комплекса по измерению вольт-амперных характеристик на базе микрозондовой станции Cascade Microtech MPS 150, а также модернизирован канал оптической стимуляции на базе люминесцентного спектрометра Perkin Elmer LS 55 со встроенной высокотемпературной приставкой. Реализованные программно-аппаратные измерительные комплексы позволили успешно применить на практике методики исследования широкозонных наноструктур посредством оптически стимулированных процессов. Полученные в ходе работы данные, как для образцов Ti/TiO2-НТ/Au, так и для наноструктурированного порошка h-BN, отлично согласуются с результатами различных исследовательских работ из независимых научных источников. / Objects of development and research: a laser stimulation channel for measuring the electrophysical parameters of the Ti/TiO2-HT/Au structure and an optical stimulation channel for studying the luminescent properties of a hexagonal boron nitride nanopowder. The aim of the work is to develop measuring channels of laser stimulation of the studied samples based on the control and operating of radiation parameters in various modes during experimental studies of optically stimulated and related processes in wide-gap nanostructured materials. As a result of the work, a laser stimulation channel was developed for the existing complex for measuring current-voltage characteristics based on the Cascade Microtech MPS 150 microprobe station, and the optical stimulation channel was modernized on the basis of a Perkin Elmer LS 55 luminescence spectrometer with a built-in high-temperature attachment. The implemented software and hardware measuring systems made it possible to successfully apply in practice the methods of studying wide-gap nanostructures by means of optically stimulated processes. The data obtained during the work, both for the Ti / TiO2-NT / Au samples and for the nanostructured h-BN powder, are in excellent agreement with the results of various research works from independent scientific sources.
|
Page generated in 0.0264 seconds