Étude critique de la preuve de l’existence de Dieu du Traité du premier principe de Jean Duns Scot (v.1265-1308)

Kaci, Amayes

09 1900

Ce mémoire consiste en une étude critique de la démonstration de l’existence d’un premier principe telle qu’elle est développée par Jean Duns Scot (v.1265-1308) dans les trois premiers chapitres de son Traité du premier principe. Le présent travail a pour objectif de déterminer, au moyen de principes et de critères rigoureux, si la preuve avancée par le Docteur Subtil constitue une véritable démonstration. Pour ce faire, ce mémoire se déploie en trois grandes parties. La première partie met au jour la méthode employée par Duns Scot dans le traité à l’étude et s’attèle à tracer les contours des cadres épistémologique et métaphysique scotistes sur lesquels s’appuie l’ensemble de son argumentation. Puis, la deuxième partie est consacrée à l’exposition générale de la démonstration scotiste de l’existence d’un premier principe dans les ordres d’efficience, de finalité et d’éminence. Enfin, la dernière partie correspond à un examen minutieux de l’ensemble de la preuve scotiste. Chaque argument est alors passé en revue et évalué à l’aune de principes et de critères clairement établis dans l’introduction de ce mémoire. Au terme de cet examen, il nous sera alors possible de montrer qu’à défaut de prouver l’existence en acte d’une nature unique qui soit à la fois cause efficiente première de tout être, fin ultime de toute chose et réalité souverainement parfaite, Duns Scot parvient tout de même à établir l’existence d’un premier principe de l’être. / This thesis consists in a critical study of Duns Scotus’ demonstration of the existence of a First Principle as developed in the first three chapters of his book A treatise on God as First Principle. The objective of this work is to determine, by means of rigorous principles and criteria, whether the proof advanced by the Subtle Doctor constitutes a true demonstration. The thesis is divided into three main parts. The first part highlights the method employed by Duns Scotus in the treatise under study and endeavors to trace the outlines of Scotus’ epistemological and metaphysical frameworks on which the whole of the argument is based. The second part is devoted to the general exposition of Duns Scotus’ demonstration of the existence of a first principle in the orders of efficiency, finality and eminence. Finally, the last part corresponds to a careful examination of the entire proof of Duns Scotus. Each argument is then reviewed and assessed against the principles and criteria clearly established in the introduction. At the end of this examination, it will then be possible for us to show that the demonstration of Duns Scotus failed to prove the actual existence of a unique nature which is both the first effective cause of all beings, the ultimate end of all things, and a supremely perfect reality, but nevertheless manages to demonstrate the existence of a first principle of being.

Philosophie

Métaphysique

Jean Duns Scot

Premier principe

Dieu

Démonstration

Philosophy

Metaphysics

Duns Scotus

First principle

God

Demonstration

Metaphysics / Métaphysique (UMI : 0396)

Kampen om arbetslinjen : En diskursanalys av begreppets framställning och politiska innebörder under valåret 2010 i tidningarna Aftonbladet och Svenska Dagbladet / The struggle of the work-first principle : A discourse analysis of how the concept’s contemporary definition and policy implications was presented in the election year 2010 in the newspapers Aftonbladet and Svenska Dagbladet

Aldebert, Carl, Jonsson, David

January 2012

The concept of the work-first principle (arbetslinjen) might be considered old, but still serves as the main principle as well as an instrument in the Swedish labour market and social policy today. The original idea was that work and willingness to work was to be rewarded, especially due to a common opposition against the passive receipt of grants. The general definition of work, today, is that it is something desirable that should be achieved and that unemployed primarily will be offered training or work rather than grants and subsidies. When the Moderate party re-launched themselves as Sweden's "workers' party of today", in the beginning of the 2000's, the concept was brought back into the spotlight. In the elections of 2006 and 2010, the labour market was widely debated and become a controversial issue, with the concept of the work-first principle playing a major role. The purpose of this thesis is to analyse and problematize how the concept was presented and explained in the nationwide newspapers Aftonbladet and Svenska Dagbladet during the 2010 elections, this in order to increase the understanding of the concept’s contemporary definition and policy implications. This was done by analysing news articles, including articles from the debate and cultural sections, as well as editorials in afore mentioned newspapers, through a discourse analytical approach using the conceptual and analytical tools from both the discourse theory and the critical discourse analysis. The result of this thesis shows that the discourse is not primarily a matter of the work-first principle’s existence or nonexistence but rather how it should be defined and what to include. Other main result was that the common definition of the work-first principle and its content, during the election of 2010 (1 January - 19 September), was closely connected to the policy of the, ruling Alliance Government.

work-first principle

work

unemployment

discourse

discourse analysis

the Alliance

the Red-Greens

earned income tax credit

Aftonbladet

Svenska Dagbladet

arbetslinjen

arbete

arbetslöshet diskurs

diskursanalys

Alliansen

det rödgröna samarbetet

jobbskatteavdrag

Aftonbladet

Svenska Dagbladet

種々の電子状態評価技法の比較 : ELNESに基づく化学結合性の議論

Tatsumi, Kazuyoshi, Muto, Shunsuke, 巽, 一厳, 武藤, 俊介

January 2009

No description available.

electron energy-loss near edge structure

first principle theoretical calculation

chemical bonding states

第一原理計算

化学結合状態

Computational study of low index surface of an anatase TiO2 doped with ruthenium (Ru) and strontium (sr) for application in Dye sensitized solar cells

Nemudzivhadi, Hulisani

18 May 2019

MSc (Physics) / Department of Physics / Titanium dioxide (TiO2) is considered to be an ideal semiconductor for photocatalysis because of its high stability, low cost and safety towards both humans and the environment. Doping TiO2 with different elements has attracted much attention as the most important way of enhancing the visible light absorption, in order to improve the efficiency of the dye sensitized solar cells (DSSCs). In this study, first principle density functional theory was used to investigate electronic and optical properties of bulk anatase TiO2, undoped, and ruthenium (Ru) and strontium (Sr) doped anatase TiO2 (1 0 0) surface. Two different doping approaches i.e., substitutional and adsorption mechanisms were considered in this study. The results showed that absorption band edges of Ru and Sr-doped anatase TiO2 (1 0 0) surface shift to the long wavelength region compared to the bulk anatase TiO2 and undoped anatase TiO2 (1 0 0) surface. Also, the results revealed that the band gap values and the carrier mobility in the valence band, conduction band and impurity energy levels have a synergetic influence on the visible-light absorption and photocatalytic activity of the doped anatase TiO2 (1 0 0) surface. Furthermore, according to the calculated results, we propose the optical transition mechanisms of Ru and Sr-doped anatase TiO2 (1 0 0) surface. Thus, we conclude that the visible light response of TiO2 can be modulated by doping with both Ru and Sr. However, Sr-doped system shows higher photocatalytic activity than the Ru-doped system. The study has successfully probed the interesting optical response mechanism of TiO2 (1 0 0) surface. / NRF

Doping

Anatase

TiO2

Low index surface

First principle densityfunctional theory

Electronic properties

Optical properties

Photocatalytic activity

621.31244

Titanium dioxide

Solar cells

Solar radiation

Solar energy -- Climatic factors

Solar greenhouses

The atomic struture of inversion domains and grain boundaries in wurtzite semonconductors : an investigation by atomistic modelling and high resolution transmission electron microscopy / Structure atomique des domaines d’inversion et joints de grains dans les semiconducteurs wurtzite : modélisation atomistique et microscopie électronique en transmission haute résolution

Li, Siqian

04 December 2018

Au cours de ce travail, nous avons étudié deux types de défauts interfaciaux: domaines d’inversion (DI) et joints de grains (JG) dans des semiconducteurs de structure wurtzite (nitrures- d’éléments III, ZnO et l’hétérostructure ZnO/GaN) en utilisant le MET haute résolution et la modélisation ab initio. Dans le cas des DI, nos analyses théoriques montrent qu'une configuration tête-à-tête avec une séquence d'empilement à l’interface AaBbAa-AcCaA (H4) est la structure la plus stable dans les composés binaires (nitrures et ZnO wurtzites). De plus, un gaz d’électrons (2DEG) ou de trous (2DHG) à 2 dimensions est formé pour les configurations « tête-à-tête » ou queue-à-queue. A l’interface ZnO/GaN, l'observation de MET très haute résolution a confirmé la configuration H4 avec une interface -Zn-O-Ga-N. Notre modélisation théorique a mis en évidence la formation d’un gas de trous à 2 dimensions à cette hétérointerface. Nous avons aussi réalisé l’étude topologique, théorique et par MET des joints de grains de rotation autour de l’axe [0001] dans ces matériaux. Dans le GaN, nous avons trouvé que les plans du joint sont simplement formés par des dislocations de type a déjà connues pour le matériau en couche mince. Par contre, dans ZnO, la théorie topologique est complétement démontrée, et la dislocation [101 ̅0] est une brique de base dans la constitution des joints de grains avec des cycles d’atomes 6-8-4-. / In this work, we investigated two kinds of interfacial defects: inversion domain boundaries (IDBs) and grain boundaries (GB) in wurtzite semiconductors (III-nitrides, ZnO and ZnO/GaN heterostructure) using high-resolution TEM and first-principle calculations. For IDBs, theoretical calculation indicated that a head-to-head IDB with an interfacial stacking sequence of AaBbAa-AcCaA (H4) is the most stable structure in wurtzite compounds. Moreover, 2-dimensional electron gas (2DEG) and 2-dimensional hole gas (2DHG) build up in head-to-head and tail-to-tail IDBs, respectively. Considering the IDB at the ZnO/GaN heterointerface, TEM observations unveiled the H4 configuration with a -Zn-O-Ga-N interface. Moreover the theoretical investigation also confirmed stability of this interface along with the corresponding formation of a 2DHG. A detailed topological, TEM and theoretical investigation of [0001] tilt Grain Boundaries (GBs) in wurtzite symmetry has also been carried out. In GaN, it is shown that the GBs are only made of separated a edge dislocations with 4, 5/7 and 8 atoms rings. For ZnO, a new structural unit: the [101 ̅0] edge dislocation made of connected 6-8-4-atom rings is reported for the first time, in agreement with an early theoretical report on dislocations and jogs in the wurtzite symmetry.

Domaines d’inversio

Nitrures-III

MET

Modélisation ab-initio

Dislocation coin [10-10

Unité structurale

Inversion domain boundary

Grain boundary

Group-III nitrides

TEM

Structural unit

Electron energy loss spectroscopy of graphene and boron nitride with impurities or defects in the transmission electron microscope

Pan, Cheng-Ta

January 2014

The two-dimensional material graphene possesses many impressive properties such asextraordinary carrier mobility, mechanical stiffness and optical transmittance. However,the properties of pristine graphene do not always complement the requirements of applications. Of particular interest, a band gap is needed for electronic logic devices. Recent research shows that using few-layer hexagonal boron nitride as a substrate for graphene-based electronic devices can open a band gap in graphene. Also, introducing impurities such as hydrogen atoms, transition metals or silicon atoms on or within graphene can control the electronic properties according to recent studies. Furthermore, ion irradiation is an alternative option to tailor the properties of graphene by introducing defects. In this thesis, pristine, impure or defective graphene and few-layer boron nitride were characterised by scanning transmission electron microscopy (STEM) and electron energy loss (EEL) spectroscopy. Through STEM and EEL spectroscopy, lattice structures and electronic properties of these two-dimensional materials could be investigated at the atomic scale. This thesis focuses on the frontier studies of theoretical and experimental EEL spectroscopy of graphene and few-layer boron nitride with impurities. In the EEL spectra of pristine graphene and boron nitride two prominent peaks were observed, which are attributed to the plasmon excitations of π- and π+σ-electrons. By introducing impurities such as hydrogen adatoms on graphene and substitutional oxygen and carbon atoms within single-layer boron nitride, our experimental and simulated EEL spectra show that their π-plasmon peaks are modified. The concentrations of these impurities were then evaluated via EEL spectra and atomic-resolution images. If other impurities, such as various transition metals and silicon atoms, are introduced on or within single-layer graphene, our simulated EEL spectra demonstrate that the geometry of these impurity clusters affects the π-plasmon peak in graphene and some impurities even enhance it. Finally, experiments on in-situ transmission electron microscopy and ex-situ STEM and Raman spectroscopy were conducted to investigate ion irradiated graphene. Many topological defects were, for the first time, observed in atomic-resolution STEM images of ion irradiated graphene. Simulated EEL spectra of defective graphene are also reported, which suggests that corrugations and dangling bonds in defects can modify out-of-plane EEL spectra and introduce intraband transitions, respectively.

543

Solid-Solution Strengthening and Suzuki Segregation in Co- and Ni-based Alloys

Dongsheng Wen (12463488)

29 April 2022

<p>Co and Ni are two major elements in high temperature structural alloys that include superalloys for turbine engines and hard metals for cutting tools. The recent development of complex concentrated alloys (CCAs), loosely defined as alloys without a single principal element (e.g. CoNiFeMn), offers additional opportunities in designing new alloys through extensive composition and structure modifications. Within CCAs and Co- and Ni-based superalloys, solid-solution strengthening and stacking fault energy engineering are two of the most important strengthening mechanisms. While studied for decades, the potency and quantitative materials properties of these mechanisms remain elusive. </p> <p><br></p> <p>Solid-solution strengthening originates from stress field interactions between dislocations and solute of various species in the alloy. These stress fields can be engineered by composition modification in CCAs, and therefore a wide range of alloys with promising mechanical strength may be designed. This thesis initially reports on experimental and computational validation of newly developed theories for solid-solution strengthening in 3d transition metal (MnFeCoNi) alloys. The strengthening effects of Al, Ti, V, Cr, Cu and Mo as alloying elements are quantified by coupling the Labusch-type strengthening model and experimental measurements. With large atomic misfits with the base alloy, Al, Ti, Mo, and Cr present strong strengthening effects comparable to other Cantor alloys. </p> <p> </p> <p>Stacking fault energy engineering can enable novel deformation mechanisms and exceptional strength in face-centered cubic (FCC) materials such as austenitic TRIP/TWIP steels and CoNi-based superalloys exhibiting local phase transformation strengthening via Suzuki segregation. We employed first-principles calculations to investigate the Suzuki segregation and stacking fault energy of the FCC Co-Ni binary alloys at finite temperatures and concentrations. We quantitatively predicted the Co segregation in the innermost plane of the intrinsic stacking fault (ISF). We further quantified the decrease of stacking fault energy due to segregation.  </p> <p><br></p> <p>We further investigated the driving force of segregation and the origin of the segregation behaviors of 3d, 4d and 5d elements in the Co- and Ni-alloys. Using first-principles calculations, we calculated the ground-state solute-ISF interaction energies and revealed the trends across the periodic table. We discussed the relationships between the interaction energies and the local lattice distortions, charge density redistribution, density of states and local magnetization of the solutes. </p> <p><br></p> <p>Finally, this thesis reports on new methodologies to accelerate first-principles calculations utilizing active learning techniques, such as Bayesian optimization, to efficiently search for the ground-state energy line of the system with limited computational resources. Based on the expected improvement method, new acquisition strategies were developed and will be compared and presented. </p>

Metals and Alloy Materials

Theory and Design of Materials

Solid-solution strengthening

Stacking Fault Energy

Dislocation

Co-based alloys

Ni-based alloys

first-principle calculations

Integrated Computer Modeling

Thermodynamics

Bayesian optimization technique

Acquisition function

Active Learning Methodologies

Density funcational theory

Grand Canonical Monte Carlo simulations

cluster expansion method

phase transformation

high-entropy alloy

complex concentrated alloys

tensile properties

ground-state atomic-charge distributions

interaction energy calculation