Global ETD Search

61	Electron - Ion Recombination Data for Plasma Applications : Results from Electron Beam Ion Trap and Ion Storage Ring Ali, Safdar January 2012 (has links) This thesis contains results of electron-ion recombination processes in atomic ions relevant for plasma applications. The measurements were performed at the Stockholm Refrigerated Electron Beam Ion Trap (R-EBIT) and at the CRYRING heavy-ion storage ring. Dielectronic recombination (DR) cross sections, resonant strengths, rate coefficients and energy peak positions in H-like and He-like S are obtained for the first time from the EBIT measurements. Furthermore, the experimentally obtained DR resonant strengths are used to check the behaviour of a scaling formula for low Z, H-and He-like iso-electronic sequences and to update the fitting parameters. KLL DR peak positions for initially He- to B-like Ar ions are obtained experimentally from the EBIT measurements. Both the results from highly charged sulfur and argon are compared with the calculations performed with a distorted wave approximation. Absolute recombination rate coefficients of B-like C, B-like Ne and Be-like F ions are obtained for the first time with high energy resolution from storage ring measurements. The experimental results are compared with the intermediate coupling AUTOSTRUCTURE calculations. Plasma rate coefficients of each of these ions are obtained by convoluting the energy dependent recombination spectra with a Maxwell-Boltzmann energy distribution in the temperature range of 103-106 K. The resulting plasma rate coefficients are presented and compared with the calculated data available in literature. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 4: Accepted. Paper 5: Accepted. Paper 6: Manuscript. Paper 7: Manuscript.</p> Highly charged ions Atomic processes Atomic data Electron-ion recombination Plasmas
62	Charged Higgs Boson Studies in the Channel pp→a1h±→4b+l+MET in the Next-to MSSM (NMSSM) with the ATLAS Experiment Zimmer, Stephan January 2010 (has links) Next-to-minimal super-symmetric extensions of the Standard Model (SM) predict the existence of several non-SM like Higgs bosons. The process pp→a1h±→4b+W involves the production and the decay of a spin-0 charged Higgs boson and a CP-odd Higgs boson a1 which can have a sizable cross section in the NMSSM. The invariant masses of these intermediate bosons can be reconstructed from the four momenta of the final state particles using mass minimization algorithms. This thesis presents a cut-based analysis of two mass scenarios and specialized algorithms that are capable of recovering the signal in a large background arising from Standard Model processes such as ttbar. The analysis is tested with a realistic ATLAS detector simulation investigating trigger efficiencies and probing several jet reconstruction algorithms. ATLAS Charged Higgs NMSSM Beyond Standard Model Supersymmetry MSSM Elementary particle physics Elementarpartikelfysik
63	Studies of the Phenomenology of H+ → W+Z events with ATLAS at LHC Fleischhack, Henrike January 2012 (has links) The Higgs sector is the last part of the standard model of particle physics where we lack directexperimental results. Many extensions to the standard model describe an extended Higgs sector,often containing charged scalar bosons in addition to the standard model’s neutral Higgs boson.The H+WZ vertex can be used to distinguish between different non-standard Higgs sectors, andto measure the mass of the charged Higgs boson. In this report I will examine a promising searchchannels at the LHC and look at its phenomenology using monte carlo simulations. High energy physics particle physics Higgs boson charged Higgs boson LHC ATLAS
64	Investigation of the Role of Groove Hydration and Charged Nucleosides in DNA Charge Transfer Onyemauwa, Frank Okezie 11 August 2006 (has links) Structural analyses of DNA oligonucleotides indicate the presence of bound water molecules in the major and minor grooves of DNA. These water molecules participate in DNA charge transfer by their reaction with guanosine radical cation to form 7,8-dihydro-8-oxo-guanine (8-oxoG), which when treated with a base leads to DNA strand cleavage. We probed the reaction of guanosine radical cation with water with series of alkyl substituted cytidines and thymidines by incorporating the modified nucleosides into anthraquinone linked DNA duplexes and irradiating them with UV light at 350 nm. The incorporation of these hydrophobic substituents disrupt the DNA spine of hydration, and we have observed that these modifications in the major and minor groove do not effect the trapping or long distance hopping of radical cations in DNA. The second part of the work reported herein examines the role of charged nucleosides in long range charge transfer in duplex DNA. DNA methylation is a naturally occurring process mediated by enzymes responsible for such functions in biological systems. Hypermethylation of DNA can also occur as a result of environmental alkylating agents leading to mutation of the affected cells. Methylation of the ring nitrogen of a purine base can introduce a positive charge in the ring resulting in the cleavage of the glycosidic bond of the nucleoside. To understand the role of a charged nucleoside on charge transfer in DNA, we designed and synthesized cationic nucleoside mimics, which were incorporated into anthraquinone-linked DNA strands and irradiated at 350 nm. The presence of the cationic bases on the duplexes inhibits the migrating hole from hopping along the DNA strand, and induces a prominent local structural distortion of the DNA as a result of the charged nucleobase. DNA oxidation Synthesis of pyridinium nucleoside Charged nucleosides DNA charge transfer Nucleosynthesis DNA Synthesis Nucleosides
65	Wechselwirkung langsamer hochgeladener Ionen mit der Oberfläche von Ionenkristallen Heller, R. 31 March 2010 (has links) (PDF) In dieser Arbeit wird die Erzeugung permanenter Nanostrukturen durch den Beschuss mit langsamen (v < 5x105m/s) hochgeladenen (q < 40) Ionen auf den Oberflächen der Ionenkristalle CaF2 sowie KBr untersucht. Die systematische Analyse der Probenoberfläche mittels Raster-Kraft-Mikroskopie liefert detaillierte Informationen über den Einfluss von potentieller und kinetischer Projektilenergie auf den Prozess der Strukturerzeugung. Der individuelle Einfall hochgeladener Ionen auf der KBr(001)-Oberfläche kann die Erzeugung monoatomar tiefer, lochartiger Strukturen -Nanopits- mit einer lateralen Ausdehnung von wenigen 10nm initiieren. Das Volumen dieser Löcher und damit die Anzahl gesputterter Sekundärteilchen zeigt eine lineare Abhängigkeit von der potentiellen Energie der Projektile. Für das Einsetzen der Locherzeugung konnte ein von der Projektilgeschwindigkeit abhängiger Grenzwert der potentiellen Energie E_grenz^pot (Ekin) gefunden werden. Auf der Basis der defekt-induzierten Desorption durch Elektronen wurde unter Einbeziehung von Effekten der Defektagglomeration ein konsistentes mikroskopisches Modell für den Prozess der Locherzeugung konzipiert. Für die CaF2(111)-Oberfläche kann die aus jüngsten Studien bekannte, individuelle Erzeugung hügelartiger Nanostrukturen -Nanohillocks- durch hochgeladene Ionen in dieser Arbeit auch für kleinste kinetische Energien (E_kin < 150eVxq) verifiziert werden. Die potentielle Energie der einfallenden Ionen wird damit erstmalig zweifelsfrei als alleinige Ursache der Nanostrukturerzeugung identifiziert. Zudem zeigt sich bei geringer Projektilgeschwindigkeit eine Verschiebung der potentiellen Grenzenergie zur Hillock-Erzeugung. Im Rahmen einer Kooperation an der Technischen Universität Wien durchgeführte Simulationsrechnungen auf der Grundlage des inelastischen thermal spike-Modells zeigen, dass die individuelle Hillock-Erzeugung durch hochgeladene Ionen mit einer lokalen Schmelze des Ionenkristalls verknüpft werden kann. Dem essentiellen Einfluss der Elektronenemission während der Wechselwirkung des hochgeladenen Ions mit der Oberfläche auf den Prozess der Nanostrukturerzeugung wird in komplementären Untersuchungen zur Sekundärelektronenstatistik Rechnung getragen. Erstmalig werden dabei Gesamtelektronenausbeuten für Isolatoroberflächen bei kleinsten Projektilgeschwindigkeiten (v < 1x10^5 m/s) bestimmt. Für Geschwindigkeiten v < 5x10^4 m/s findet sich für die Isolatoroberfläche in starkem Kontrast zu Metallen ein signifikanter Abfall der Elektronenausbeute mit sinkender kinetischer Energie. Mögliche Ursachen dieses Effektes werden auf der Grundlage unterschiedlicher Modelle diskutiert. ddc:539
66	Measurement of the muon neutrino inclusive charged current cross section on iron using the MINOS detector Loiacono, Laura Jean 07 January 2011 (has links) The Neutrinos at the Main Injector (NuMI) facility at Fermi National Accelerator Laboratory (FNAL) produces an intense muon neutrino beam used by the Main Injector Neutrino Oscillation Search (MINOS), a neutrino oscillation experiment, and the Main INjector ExpeRiment [nu]-A, (MINER[nu]A), a neutrino interaction experiment. Absolute neutrino cross sections are determined via [mathematical equation], where the numerator is the measured number of neutrino interactions in the MINOS Detector and the denominator is the flux of incident neutrinos. Many past neutrino experiments have measured relative cross sections due to a lack of precise measurements of the incident neutrino flux, normalizing to better established reaction processes, such as quasielastic neutrino-nucleon scattering. But recent measurements of neutrino interactions on nuclear targets have brought to light questions about our understanding of nuclear effects in neutrino interactions. In this thesis the [nu subscript mu] inclusive charged current cross section on iron is measured using the MINOS Detector. The MINOS detector consists of alternating planes of steel and scintillator. The MINOS detector is optimized to measure muons produced in charged current [nu subscript mu] interactions. Along with muons, these interactions produce hadronic showers. The neutrino energy is measured from the total energy the particles deposit in the detector. The incident neutrino flux is measured using the muons produced alongside the neutrinos in meson decay. Three ionization chamber monitors located in the downstream portion of the NuMI beamline are used to measure the muon flux and thereby infer the neutrino flux by relation to the underlying pion and kaon meson flux. This thesis describes the muon flux instrumentation in the NuMI beam, its operation over the two year duration of this measurement, and the techniques used to derive the neutrino flux. / text Muon neutrino Charged current cross section MINOS Neutrinos
67	STUDIES RELATED TO COULOMBIC FISSIONS OF CHARGED DROPLETS AND HYGROSCOPIC BEHAVIOR OF MIXED PARTICLES Hunter, Harry Cook, III 01 January 2011 (has links) This dissertation describes two independent studies related to charged aerosols. The first study examines the role of electrical conductivity on the amounts of charge and mass emitted during the break-up of charged droplets via Coulombic fission. The second study examines the hygroscopic behavior of mixed particles. The results from both studies are presented here in detail along with an in-depth discussion of pertinent literature and applications in modern technologies. Charged droplets break-up via a process termed Coulombic fission when their charge density reaches a certain level during which they emit a portion of their charge and mass in the form of progeny microdroplets. Although Rayleigh theory can be used to predict the charge level at which break-ups occur, no equivocal theory exists to predict the amounts of charge or mass emitted or the characteristics of the progenies. Previous investigations have indicated that the electrical conductivity of a charged droplet may determine how much charge and mass are emitted during its break-up via Coulombic fission. To further examine this supposition, charged droplets having known electrical conductivities were observed through multiple break-ups while individually levitated in an electrodynamic balance. The amounts of charge and mass emitted during break-ups were determined using a light scattering technique and changes in the DC null point levitation potentials of the charged droplets. Here, electrical conductivity was found to increase and decrease the amounts of charge and mass emitted, respectively, while having no effect on the charge level at which break-ups occurred. The findings of this investigation have significant bearing in nanoparticle generation and electrospray applications. The hygroscopic behavior of atmospherically relevant inorganic salts is essential to the chemical and radiative processes that occur in Earth’s atmosphere. Furthermore, studies have shown that an immense variety of chemical species exist in the atmosphere which inherently mix to form complex heterogeneous particles with differing morphologies. However, how such materials and particle morphologies affect the hygroscopic behavior of atmospherically relevant inorganic salts remains mostly unknown. Therefore, the effects of water insoluble materials, such as black carbon, on the hygroscopic behavior of inorganic salts were examined. Here, water insoluble solids were found to increase the crystallization relative humidities of atmospherically relevant inorganic salts when internally mixed. Water insoluble liquids however, were found to have no effect on the hygroscopic behavior of atmospherically relevant inorganic salts. The findings of this investigation have significant bearing in atmospheric modeling. charged droplets Coulombic fission hygroscopic behavior electrodynamic balance light scattering Chemical Engineering
68	Searches for a Charged Higgs Boson in ATLAS and Development of Novel Technology for Future Particle Detector Systems Pelikan, Daniel January 2015 (has links) The discovery of a charged Higgs boson (H±) would be a clear indication for physics beyond the Standard Model. This thesis describes searches for charged Higgs bosons with the ATLAS experiment at CERN’s Large Hadron Collider (LHC). The first data collected during the LHC Run 1 is analysed, searching for a light charged Higgs boson (mH±<mtop), which decays predominantly into a tau-lepton and a neutrino. Different final states with one or two leptons (electrons or muons), as well as leptonically or hadronically decaying taus, are studied, and exclusion limits are set. The background arising from misidentified non-prompt electrons and muons was estimated from data. This so-called "Matrix Method'' exploits the difference in the lepton identification between real, prompt, and misidentified or non-prompt electrons and muons. The Matrix Method is used in all charged Higgs boson searches in this thesis. In 2024 the LHC will be upgraded into a High Luminosity LHC (HL-LHC). The ATLAS detector is expected to collect around 300 fb-1 of collision data until 2022, whereas the HL-LHC will deliver about 250-300 fb-1 of data per year. This will increase the mean number of interactions per bunch crossing, resulting in larger particle fluxes. This puts challenging requirements on the electronics. In order to keep trigger and data rates at manageable levels, new trigger concepts require more intelligence at early stage which possibly results in more cables and connectors, inside the detector which lead to degraded performance of the detector system. This thesis presents new concepts using wireless technology at 60 GHz, in order add more data links inside the detector system without adding much material. Patch antennas have been developed, operating at 60 GHz. Manufacture methods have been investigated, and the fabrication tolerances and bandwidth of these antennas have been studied. Also, concepts of using passive repeaters have been investigated, to make the 60 GHz signal pass boundaries. These repeaters can be used to connect intelligence inside the detector, but also for reading out data from the whole detector radially. Charged Higgs boson Matrix Method ATLAS 60 GHz future particle detector
69	Improvements to detection efficiency and measurement accuracy in Coulomb Explosion Imaging experiments Wales, Benjamin January 2011 (has links) An algorithm for extracting event information from a Coulomb Explosion Imaging (CEI) position sensitive detector (PSD) is developed and compared with previously employed schemes. The PSD is calibrated using a newly designed grid overlay and validates the quality of the described algorithm. Precision calculations are performed to determine how best the CEI apparatus at The University of Waterloo can be improved. An algorithm for optimizing coincidence measurements of polyatomic molecules in CEI experiments is developed. Predictions of improved efficiency based on this algorithm are performed and compared with experiments using a triatomic molecule. Analysis of an OCS targeted CEI experiment using highly charged Argon ions to initiate ionization is performed. The resulting measurements are presented using a variety of visualization tools to reveal asynchronous and sequential fragmentation channels of OCS3+. Coulomb explosion imaging coincidence OCS ultrafast laser highly charged ion Physics
70	Artificial Water Splitting: Ruthenium Complexes for Water Oxidation Duan, Lele January 2011 (has links) This thesis concerns the development and study of Ru-based water oxidation catalysts (WOCs) which are the essential components for solar energy conversion to fuels. The first chapter gives a general introduction about the field of homogenous water oxidation catalysis, including the catalytic mechanisms and the catalytic activities of some selected WOCs as well as the concerns of catalyst design. The second chapter describes a family of mononuclear Ru complexes [Ru(pdc)L3] (H2pdc = 2,6-pyridinedicarboxylic acid; L = pyridyl ligands) towards water oxidation. The negatively charged pdc2− dramatically lowers the oxidation potentials of Ru complexes, accelerates the ligand exchange process and enhances the catalytic activity towards water oxidation. A Ru aqua species [Ru(pdc)L2(OH2)] was proposed as the real catalyst. The third chapter describes the analogues of [Ru(terpy)L3]2+ (terpy = 2,2′:6′,2′′-terpyridine). Through the structural tailor, the ligand effect on the electrochemical and catalytic properties of these Ru complexes was studied. Mechanistic studies suggested that these Ru-N6 complexes were pre-catalysts and the Ru-aqua species were the real WOCs. The forth chapter describes a family of fast WOCs [Ru(bda)L2] (H2bda = 2,2′-bipyridine-6,6′-dicarboxylic acid). Catalytic mechanisms were thoroughly investigated by electrochemical, kinetic and theoretical studies. The main contributions of this work to the field of water oxidation are (i) the recorded high reaction rate of 469 s−1; (ii) the involvement of seven-coordinate Ru species in the catalytic cycles; (iii) the O-O bond formation pathway via direct coupling of two Ru=O units and (iv) non-covalent effects boosting up the reaction rate. The fifth chapter is about visible light-driven water oxidation using a three component system including a WOC, a photosensitizer and a sacrificial electron acceptor. Light-driven water oxidation was successfully demonstrated using our Ru-based catalysts. / QC 20110922 water oxidation ruthenium electrochemistry DFT calculation photoelectrochemistry negatively charged ligand catalyst

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