Laser spectroscopy of Eu centres in MBE grown CaF₂:Eu-CdF₂ superlattices and CaF₂:Eu thin films : a thesis submitted in partial fulfilment of the requirements for the degree of Doctor of Philosophy in Physics in the University of Canterbury /

Choi, Joon Koo.

January 2009

Thesis (Ph. D.)--University of Canterbury, 2009. / Typescript (photocopy). Includes bibliographical references. Also available via the World Wide Web.

Etude et caractérisation de céramiques transparentes fluorées pour lasers de forte puissance moyenne / Study and characterization of fluoride transparent ceramics for high-power lasers applications

Sarthou, Julia

13 November 2017

Ce travail de thèse a pour objectif d'étudier et de mieux comprendre les relations structure-propriétés de céramiques transparentes Yb:CaF2 obtenues par voie humide, en particulier sur le plan des propriétés thermiques. Dans un premier temps nous présentons les atouts des céramiques transparentes Yb:CaF2 dans le cadre d'une application en laser de puissance. Le procédé de fabrication par voie humide des céramiques est ensuite décrit au cours d'une seconde partie. Les résultats d'analyses et caractérisations diverses ayant eu lieu à différentes étapes de la synthèse des céramiques sont présentés, menant à une optimisation du procédé de fabrication. Un troisième chapitre est ensuite consacré à une étude expérimentale des propriétés thermiques de nos céramiques, qui montre en particulier une grande similitude avec les propriétés des monocristaux. Cette étude est complétée par un volet de modélisation décrit dans un quatrième chapitre. Deux modèles prédictifs de conductivité thermique sont explorés et comparés, et permettent d'apporter une explication théorique aux tendances observées expérimentalement. L'hypothèse selon laquelle l'impact des joints de grains sur la diminution de la conductivité thermique est négligeable devant celui du dopage est notamment confirmée. Enfin, dans une cinquième et dernière partie, plusieurs pistes sont explorées afin d'apporter une explication à l'échauffement supérieur des céramiques par rapport aux monocristaux observé en conditions laser. / This PHD work is aiming at getting a better understanding of the structure-properties relationships of Yb:CaF2 transparent ceramics obtained with a wet-route fabrication process, with a special focus on thermal properties. At first, we introduce the assets of Yb:CaF2 transparent ceramics in the frame of high-power laser applications. The wet-route fabrication process is then described in a second chapter. The results of several analysis and characterizations performed along different steps of the ceramics synthesis are also presented, leading to an optimized fabrication process. The third chapter then focuses on an experimental study of the thermal properties of our ceramics, which shows in particular an important similarity with single crystals properties. This study is complemented with a modelization work described in chapter four. Two predictive models of thermal conductivity are investigated and compared. They bring a theoretical explanation to the tendencies experimentally observed. We thereby confirm the hypothesis according to which the grain boundaries impact on thermal conductivity is negligible with respect to that of the doping element introduction. Finally, in the fifth and last chapter, several hypothesis are investigated in order to bring an explanation to the ceramics overheating observed in laser conditions, which is superior to single crystals.

Céramique transparente

Fluorure de calcium

Ytterbium

Conductivité thermique

Laser

Phonons

Transparent ceramic

Calcium fluoride

Thermal conductivity

541.3

Depozice CaF2 ultratenkých vrstev na grafenový substrát / The deposition of CaF2 ultrathin layers on graphene substrate

Caesar, Radek

January 2020

This master’s thesis is focused on preparation and analysis of ultrathin CaF2 (calcium fluoride) films on a graphene substrate. CaF2 was deposited in UHV conditions at substrate temperatures in the range from 20 °C to 400 °C. The material was deposited on Si(111) with a native SiO2 layer and on a substrate with a CVD graphene layer. The deposited films were analyzed by XPS, AFM and SEM. Moreover four different sample holders for deposition purposes were designed in this work.

The Formation of Prenucleation Clusters for Calcium Fluoride

Muterspaw, Taylor M.

01 September 2021

No description available.

Chemistry

Geochemistry

Analytical Chemistry

Environmental Science

prenucleation clusters

calcium fluoride

classical nucleation theory

nucleation

crystallization

crystal growth

ion selective electrode

Etude de la précipitation de la fluorine en milieu alcalin et application à un procédé en réacteur à lit fluidisé. / Fluorite precipitation in strongly alkaline solutions and application to a fluidized bed reactor process

Mateus Tavares, Ana Raquel

14 October 2013

Le procédé adopté par COMURHEX pour le traitement des effluents très chargés en fluor est basé sur l’addition d’un composé alcalin Ca(OH)2 (portlandite) pour faire précipiter de la fluorine (CaF2). Mis en œuvre par le passé dans un décanteur le développement d’un nouveau procédé en lit fluidisé a été envisagé pour augmenter l’efficacité du traitement des effluents. Des essais concluants ont été réalisés sur une installation pilote qui ont démontré l’efficacité de la précipitation en lit fluidisé à assurer une réduction satisfaisante de la concentration du fluor. Cependant, les phénomènes mis en jeu dans le réacteur sont mal connus.Notre objectif principal est la maîtrise de la précipitation de la fluorine dans le réacteur à lit fluidisé ainsi qu’une meilleure compréhension des mécanismes mis en jeu. Pour ce faire, il a été nécessaire de reprendre l’étude thermodynamique du système KOH-portlandite-calcite-fluorine, de manière à étendre les données existantes aux fortes concentrations de KOH en solution. Un modèle thermodynamique capable de prédire la solubilité des solides en présence de variations de la concentration de la potasse et de la température du système a été établi.La deuxième partie du travail a été focalisée sur la compréhension des mécanismes mis en jeu pendant la formation de la fluorine. Les expériences réalisées au laboratoire ont conduit à l’obtention d’une fluorine issue d’une conversion de la portlandite. Ce mécanisme a été modélisé en considérant que le remplacement de la portlandite par la fluorine s’explique par un modèle à cœur rétrécissant contrôlé par la limitation diffusionnelle du fluorure dans la couche de fluorine formée. La dernière partie expérimentale de ce travail a été réalisée sur le pilote à lit fluidisé. Les expériences effectuées n’ont pas donné de résultats satisfaisants. Il n’a pas été possible de faire faire fonctionner le pilote de façon cohérente avec les objectifs de son dimensionnement. En particulier, compte-tenu de la très petite taille des particules, les débits de fonctionnement conduisent à l’envolement de celles-ci, mais pas à l’établissement de l’état fluidisé. / The method used by COMURHEX for the treatment of fluorine-rich effluents relies on the addition of solid Ca(OH)2 (portlandite) to precipitate fluorite (CaF2) in strongly alkaline solutions. This method is effective in a settler, and the development of a new fluidized bed process has been proposed to increase its efficiency. Successful assays were conducted on a pilot scale and they demonstrated that precipitation in a fluidized bed reactor actually ensures a satisfactory defluorination. However, the phenomena involved remained poorly known, and the main goal of the present work was to elucidate the mechanisms, their kinetics, and to control the crystallization.Our first contribution is a thermodynamic reappraisal of the KOH–portlandite–calcite system that extends existing solubility data to higher KOH concentrations in solution and incorporates new solubility data for fluorite. The outcome is an aqueous speciation model (Pitzer type) accounting for the solids solubility as a function of the KOH concentration and the temperature, and allowing portlandite undersaturation and fluorine supersaturation to be evaluated in process solutions.Our second contribution focuses on the kinetics and the mechanisms involved during the formation of fluorite, using various mixing designs in batch reactors. Reaction rates are fast, except in experiments involving dilute reactants. Microprobe and granulometric data both indicate that much of the fluorine results from the conversion of the portlandite grains. A shrinking core model controlled by diffusive transfer of fluoride in the porous fluorite corona successfully fits the kinetics of fluorine uptake and the particle grain size.The last part of the experimental work was carried out on a small fluidized bed pilot. These experiments were poorly conclusive. The very small particle size and the large flow rates lead to particle blow off, but not to fluidization. As a consequence, the capacity of the fluidized bed to promote an increase of the particle grain size remains largely unknown.

Fluorure de calcium

Défluoration d’effluents

Modèle de spéciation

Remplacement

Modèle à cœur rétrécissant

Fluorite

Calcium fluoride

Fluidized bed reactor

Effluent defluorination

Aqueous speciation model

Replacement

Shrinking core model

Nuclear Magnetic Resonance in pulsed high magnetic fields

Meier, Benno

13 December 2012

Höchste Magnetfelder haben sich zu einem unverzichtbaren Werkzeug der Festkörperphysik entwickelt. Sie werden insbesondere verwendet, um die elektronischen Eigenschaften von modernen Materialien zu erforschen. Da Magnetfelder oberhalb von 45 Tesla nicht mehr mit statischen (z.B. supraleitenden) Feldern zu erreichen sind, haben sich weltweit verschiedene Labore auf die Erzeugung gepulster Magnetfelder mit angestrebten Maximalwerten von 100 Tesla spezialisiert. In der vorliegenden Arbeit werden Anwendungsmöglichkeiten der kernmagnetischen Resonanz (NMR) in gepulsten Magnetfeldern aufgezeigt. Es ist gelungen, die starke Zeitabhängigkeit der gepulsten Magnetfelder mittels NMR präzise zu vermessen. Die genaue Kenntnis des Magnetfelds nach dem Puls ermöglicht, die Zeitabhängigkeit aus den Daten zu entfernen, sodass auch eine kohärente Signal-Mittelung möglich ist. Davon ausgehend werden erstmalig Messungen der chemischen Verschiebung, der Knight Shift, der Spin-Gitter-Relaxationsrate 1/T1 und der Spin-Spin-Relaxationsrate 1/T2 diskutiert. Schließlich werden die im Zusammenhang mit gepulsten Magnetfeldern erarbeiteten Gleichungen in vereinfachter Form zur genauen Messung und Analyse des freien Induktions-Zerfalls von 19F Kernspins in Calciumfluorid verwendet. Durch Messung des Zerfalls über sechs Größenordnungen wird eine genaue Analyse bezüglich einer neuartigen Theorie ermöglicht, welche den Zerfall basierend auf der Annahme mikroskopischen Chaos\' erklärt. Diese Theorie hat das Potenzial, zu einem tieferen Verständnis von Quantenchaos in makroskopischen Vielteilchensystemen zu führen.

NMR

Kernmagnetische Resonanz

Gepulste Magnetfelder

Calciumfluorid

Chaos

NMR

Nuclear Magnetic Resonance

Pulsed Magnetic Fields

Calcium fluoride

Chaos

ddc:530

Kernmagnetische Resonanz

Diode-Pumped High-Energy Laser Amplifiers for Ultrashort Laser Pulses The PENELOPE Laser System

Löser, Markus

23 January 2018

The ultrashort chirped pulse amplification (CPA) laser technology opens the path to high intensities of 10^21 W/cm² and above in the laser focus. Such intensities allow laser-matter interaction in the relativistic intensity regime. Direct diode-pumped ultrashort solid-state lasers combine high-energy, high-power and efficient amplification together, which are the main advantages compared to flashlamp-pumped high-energy laser systems based on titanium-doped sapphire. Development within recent years in the field of laser diodes makes them more and more attractive in terms of total costs, compactness and lifetime. This work is dedicated to the Petawatt, ENergy-Efficient Laser for Optical Plasma Experiments (PENELOPE) project, a fully and directly diode-pumped laser system under development at the Helmholtz–Zentrum Dresden – Rossendorf (HZDR), aiming at 150 fs long pulses with energies of up to 150 J at repetition rates of up to 1 Hz. The focus of this thesis lies on the spectral and width manipulation of the front-end amplifiers, trivalent ytterbium-doped calcium fluoride (Yb3+:CaF2) as gain material as well as the pump source for the final two main amplifiers of the PENELOPE laser system. Here, all crucial design parameters were investigated and a further successful scaling of the laser system to its target values was shown. Gain narrowing is the dominant process for spectral bandwidth reduction during the amplification at the high-gain front-end amplifiers. Active or passive spectral gain control filter can be used to counteract this effect. A pulse duration of 121 fs was achieved by using a passive spectral attenuation inside a regenerative amplifier, which corresponds to an improvement by a factor of almost 2 compared to the start of this work. A proof-of-concept experiment showed the capability of the pre-shaping approach. A spectral bandwidth of 20nm was transferred through the first multipass amplifier at a total gain of 300. Finally, the predicted output spectrum calculated by a numerical model of the final amplifier stages was in a good agreement with the experimental results. The spectroscopic properties of Yb3+:CaF2 matches the constraints for ultrashort laser pulse amplification and direct diode pumping. Pumping close to the zero phonon line at 976nm is preferable compared to 940nm as the pump intensity saturation is significantly lower. A broad gain cross section of up to 50nm is achievable for typical inversion levels. Furthermore, moderate cryogenic temperatures (above 200K) can be used to improve the amplification performance of Yb3+:CaF2. The optical quality of the doped crystals currently available on the market is sufficient to build amplifiers in the hundred joule range. The designed pump source for the last two amplifiers is based on two side pumping in a double pass configuration. However, this concept requires the necessity of brightness conservation for the installed laser diodes. Therefore, a fully relay imaging setup (4f optical system) along the optical path from the stacks to the gain material including the global beam homogenization was developed in a novel approach. Beside these major parts the amplifier architecture and relay imaging telescopes as well as temporal intensity contrast (TIC) was investigated. An all reflective concept for the relay imaging amplifiers and telescopes was selected, which results in several advantages especially an achromatic behavior and low B-Integral. The TIC of the front-end was improved, as the pre- and postpulses due to the plane-parallel active-mirror was eliminated by wedging the gain medium.

Ultrakurzpulse Laser

Hochernergielaser

Hochintenstitätslaser

ultrashort laser pulse

CPA

chirped pulse amplification

Ytterbium laser

Calcium fluoride

PENELOPE laser system

petawatt laser

high-energy laser

high.intensity laser

laser matter interaction

Diode-Pumped High-Energy Laser Amplifiers for Ultrashort Laser Pulses The PENELOPE Laser System

Löser, Markus

16 November 2017

The ultrashort chirped pulse amplification (CPA) laser technology opens the path to high intensities of 10^21 W/cm² and above in the laser focus. Such intensities allow laser-matter interaction in the relativistic intensity regime. Direct diode-pumped ultrashort solid-state lasers combine high-energy, high-power and efficient amplification together, which are the main advantages compared to flashlamp-pumped high-energy laser systems based on titanium-doped sapphire. Development within recent years in the field of laser diodes makes them more and more attractive in terms of total costs, compactness and lifetime. This work is dedicated to the Petawatt, ENergy-Efficient Laser for Optical Plasma Experiments (PENELOPE) project, a fully and directly diode-pumped laser system under development at the Helmholtz–Zentrum Dresden – Rossendorf (HZDR), aiming at 150 fs long pulses with energies of up to 150 J at repetition rates of up to 1 Hz. The focus of this thesis lies on the spectral and width manipulation of the front-end amplifiers, trivalent ytterbium-doped calcium fluoride (Yb3+:CaF2) as gain material as well as the pump source for the final two main amplifiers of the PENELOPE laser system. Here, all crucial design parameters were investigated and a further successful scaling of the laser system to its target values was shown. Gain narrowing is the dominant process for spectral bandwidth reduction during the amplification at the high-gain front-end amplifiers. Active or passive spectral gain control filter can be used to counteract this effect. A pulse duration of 121 fs was achieved by using a passive spectral attenuation inside a regenerative amplifier, which corresponds to an improvement by a factor of almost 2 compared to the start of this work. A proof-of-concept experiment showed the capability of the pre-shaping approach. A spectral bandwidth of 20nm was transferred through the first multipass amplifier at a total gain of 300. Finally, the predicted output spectrum calculated by a numerical model of the final amplifier stages was in a good agreement with the experimental results. The spectroscopic properties of Yb3+:CaF2 matches the constraints for ultrashort laser pulse amplification and direct diode pumping. Pumping close to the zero phonon line at 976nm is preferable compared to 940nm as the pump intensity saturation is significantly lower. A broad gain cross section of up to 50nm is achievable for typical inversion levels. Furthermore, moderate cryogenic temperatures (above 200K) can be used to improve the amplification performance of Yb3+:CaF2. The optical quality of the doped crystals currently available on the market is sufficient to build amplifiers in the hundred joule range. The designed pump source for the last two amplifiers is based on two side pumping in a double pass configuration. However, this concept requires the necessity of brightness conservation for the installed laser diodes. Therefore, a fully relay imaging setup (4f optical system) along the optical path from the stacks to the gain material including the global beam homogenization was developed in a novel approach. Beside these major parts the amplifier architecture and relay imaging telescopes as well as temporal intensity contrast (TIC) was investigated. An all reflective concept for the relay imaging amplifiers and telescopes was selected, which results in several advantages especially an achromatic behavior and low B-Integral. The TIC of the front-end was improved, as the pre- and postpulses due to the plane-parallel active-mirror was eliminated by wedging the gain medium.

Nuclear Magnetic Resonance in pulsed high magnetic fields

Meier, Benno

05 November 2012

Höchste Magnetfelder haben sich zu einem unverzichtbaren Werkzeug der Festkörperphysik entwickelt. Sie werden insbesondere verwendet, um die elektronischen Eigenschaften von modernen Materialien zu erforschen. Da Magnetfelder oberhalb von 45 Tesla nicht mehr mit statischen (z.B. supraleitenden) Feldern zu erreichen sind, haben sich weltweit verschiedene Labore auf die Erzeugung gepulster Magnetfelder mit angestrebten Maximalwerten von 100 Tesla spezialisiert. In der vorliegenden Arbeit werden Anwendungsmöglichkeiten der kernmagnetischen Resonanz (NMR) in gepulsten Magnetfeldern aufgezeigt. Es ist gelungen, die starke Zeitabhängigkeit der gepulsten Magnetfelder mittels NMR präzise zu vermessen. Die genaue Kenntnis des Magnetfelds nach dem Puls ermöglicht, die Zeitabhängigkeit aus den Daten zu entfernen, sodass auch eine kohärente Signal-Mittelung möglich ist. Davon ausgehend werden erstmalig Messungen der chemischen Verschiebung, der Knight Shift, der Spin-Gitter-Relaxationsrate 1/T1 und der Spin-Spin-Relaxationsrate 1/T2 diskutiert. Schließlich werden die im Zusammenhang mit gepulsten Magnetfeldern erarbeiteten Gleichungen in vereinfachter Form zur genauen Messung und Analyse des freien Induktions-Zerfalls von 19F Kernspins in Calciumfluorid verwendet. Durch Messung des Zerfalls über sechs Größenordnungen wird eine genaue Analyse bezüglich einer neuartigen Theorie ermöglicht, welche den Zerfall basierend auf der Annahme mikroskopischen Chaos\'' erklärt. Diese Theorie hat das Potenzial, zu einem tieferen Verständnis von Quantenchaos in makroskopischen Vielteilchensystemen zu führen.

info:eu-repo/classification/ddc/530

ddc:530

Kernmagnetische Resonanz

Control de fluoruros con recuperación de producto

Aldaco García, Rubén

29 July 2005

La meta de esta tesis es impulsar las tendencias de desarrollo de la industria química que promueven la sostenibilidad de la misma. El objetivo es un control integrado de la contaminación que permita reducir las emisiones a fin de promover las actividades de producción sostenibles.En este sentido, el tratamiento de efluentes industriales con fluoruros consiste en una precipitación química. Sin embargo, el proceso genera elevadas cantidades de lodos con elevada humedad y bajo riqueza en fluoruro cálcico, por lo que su reutilización en la fabricación de HF no es viable técnica y económicamente.En esta tesis se presenta la recuperación de fluoruros de aguas industriales fluoradas mediante cristalización en un reactor de lecho fluidizado. Las principales ventajas de esta tecnología respecto del tratamiento convencional son la no generación de lodos, la reducción de residuos y la recuperación de fluoruro para su posterior valorización. / The aim of this thesis is to support the trends of the chemical industry development that promote sustainability. The goal is an integrated pollution control to reduce the emissions in order to promote sustainable production activities.In this sense, the common methods for fluoride removal from industrial wastewater involve chemical precipitation. The process generates large amounts of a water rich sludge requiring disposal with increasing costs. Due to the high water content and the low quality of the sludge, reuse of fluoride is not an economical option. The removal of fluoride in a fluidized bed reactor by crystallization has been presented in this thesis as an alternative to the chemical precipitation. When it is compared with the conventional precipitation process, the major advantage of this new clean technology is the elimination of sludge formation, the materials recovery and the reduction of solid waste.

valorization

fluidized bed reactor

crystallization

fluoride

integrated pollution control

calcium fluoride

desarrollo sostenible

valorización

reactor de lecho fluidizado

cristalización

fluoruro

fluoruro cálcico

control integrado de la contaminación

sustainable development

Ingeniería Química

66