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  • image/svg+xml art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos Open Access logo, converted into svg, designed by PLoS. This version with transparent background. http://commons.wikimedia.org/wiki/File:Open_Access_logo_PLoS_white.svg art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos http://www.plos.org/
    Authors: Alexander, Nicolle;

    More than two decades after its introduction, neoliberal ideology has increasingly created a class and race-based gap in relation to student achievement in Ontario’s education system. Due to market-based rhetoric shaping policies and legislation, schools are increasingly encouraging students to adhere to the demands of a newly globalized world with a focus on the economy, regardless of their background. This study aims to analyze the presence of neoliberal reforms in Ontario’s education system through decisions made in government from Mike Harris’ in 1995 to the present Doug Ford administration. Specifically, I investigate how the so-called knowledge economy has produced a system that enables students deemed marketable, often from middle- and upper-class white backgrounds, and disables non-marketable students, most often the working poor and the working class, and racial and ethnic minorities, through funding cuts, heightened accountability, and standardized testing. By evaluating Ministry of Education policy documents and documents for both Conservative Premier campaigns, I analyzed the rhetoric used to introduce, consolidate and solidify neoliberal discourse throughout the past twenty years. The results showed that by simplifying education to quantifiable measures, the education system now measures concepts such as equity and inclusion in schools through standardized testing and monthly reports. Further, the rhetoric used to solidify equity and inclusion within the system focuses more on the presentation of both rather than materializing its action in schools. In order to minimize the current student achievement gap in our education system, funding needs to be focalized in social services cut by our government level to properly re“instate” the intended actions of these policies.

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      image/svg+xml art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos Open Access logo, converted into svg, designed by PLoS. This version with transparent background. http://commons.wikimedia.org/wiki/File:Open_Access_logo_PLoS_white.svg art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos http://www.plos.org/ Scholarship at UWind...arrow_drop_down
      image/svg+xml art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos Open Access logo, converted into svg, designed by PLoS. This version with transparent background. http://commons.wikimedia.org/wiki/File:Open_Access_logo_PLoS_white.svg art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos http://www.plos.org/
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    Authors: Edrisy, Mohamed;

    The emergence of commercial FEA solvers was a significant breakthrough that boosted the accuracy and complexity of engineering design. While composite materials are special materials, their mechanical properties can be custom made by considering the needs and requirements of the design problem. Given the rapidly expanding global consumption of composite materials, access to FEA solvers capable of assigning these materials is an absolute requirement.The CATIA software is a platform for designing, analyzing, and manufacturing of parts. However, there is no meaningful documentation in the public domain exploring the finite element functionalities of CATIA software for composite materials. Isotropic materials are used in numerous references investigating the CATIA FEA solver; however, the extension to composite materials has been lacking. The present study investigates two phenomena: (1) the procedure to import composite material properties into the Generative Structural Analysis workbench, and (2) the pre-processing and the post-processing toolbars and functionalities pertaining to this matter. The thesis does not address the CAD modelling aspects of the composites per se since there are many references available concentrating on such issues in the CATIA public literature.The composite models are selected from different scenarios labeled as benchmark problems. The results generated by CATIA’s native FEA solver for the static, dynamic, and buckling cases are compared with other tools available to the engineering community. These tools encompass the Classical Lamination Theory and two commercial CAE codes, known as ABAQUS and ANSYS.

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      image/svg+xml art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos Open Access logo, converted into svg, designed by PLoS. This version with transparent background. http://commons.wikimedia.org/wiki/File:Open_Access_logo_PLoS_white.svg art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos http://www.plos.org/ Scholarship at UWind...arrow_drop_down
      image/svg+xml art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos Open Access logo, converted into svg, designed by PLoS. This version with transparent background. http://commons.wikimedia.org/wiki/File:Open_Access_logo_PLoS_white.svg art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos http://www.plos.org/
  • image/svg+xml art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos Open Access logo, converted into svg, designed by PLoS. This version with transparent background. http://commons.wikimedia.org/wiki/File:Open_Access_logo_PLoS_white.svg art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos http://www.plos.org/
    Authors: Stone, Rachel Marie;

    Monitoring intracranial pressure (ICP) has become an important practice in patients with elevated ICP (e.g., traumatic brain injury) to improve patient outcome. However, little information exists surrounding chronic, but sub-clinical elevations in ICP, which may stem from classic cardiovascular risk factors, such as elevated blood pressure (BP). The current methods to assess ICP are invasive and costly; but optic nerve sheath diameter (ONSD) and blood flow pulsatility (pulsatility index; PI) are promising non-invasive techniques, both of which have been reported to strongly correlate with invasive measures of ICP in pathology. However, the interactions of BP, ONSD and PI in otherwise healthy adults, remains undetermined. Accordingly, the purpose of this investigation was to determine the relationship between ONSD, PI and BP, and to highlight possible sex differences in a population of young healthy adults. Sixteen participants (6 females) underwent assessment of arterial BP, ONSD (left and right eyes) and PI (left common carotid artery) using ultrasound. There was a strong correlation between mean ONSD (left and right eye combined) and PI (R=0.735, p=0.001). There was no significant relationship between PI and BP (R=0.058, p=0.832) or ONSD and BP (R=0.272, p=0.309). Additionally, there was a significant difference between males and females for mean ONSD, whereby males demonstrated a larger diameter (males=0.4860.110 vs. females=0.3530.062cm; p=0.018), but there was no significant difference in PI between males and females (males=2.3630.613 vs. females=1.9500.196; p=0.136). Results of this study confirm the relationship between ONSD and PI in a healthy population. While ICP was not directly assessed in the current study, the strong associations between ONSD and PI suggest that their combined assessment may be employed as a tenable surrogate to non-invasively measure ICP when the invasive measure of ICP is unfeasible.

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    Scholarship at UWindsor
    Thesis . 2022
    License: CC BY
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      Scholarship at UWindsor
      Thesis . 2022
      License: CC BY
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    Authors: Kervazo, Sophie;

    Universite de Lille, McMaster University The main question of this thesis is: do we have today the tools to efficiently describe the structure, the bonding and the thermodynamics of actinide systems? This broad question is answered thanks to three studies. The first two are directly applied to the plastic industry and the nuclear plant safety. The last one, more fundamental, concerns the benchmarking of newly developed theoretical approach on f-element systems. First, actinides and transition metal arene-coordinated alkyl cations have been recently proven to be efficient catalysts for ethylene polymerizations. Interestingly, thorium, uranium and zirconium alkyl cations? catalytic activity depends on the solvent. To understand these behaviors and to confirm the tendency of these complexes to engage in unusual-arene coordination, relativistic DFT calculations combined with a characterization of the interaction thanks to the ETSNOCV method are used. Second, in accident scenario along the reprocessing of spent nuclear fuel, plutonium can be released in various volatile forms (PuO2, PuO3 or PuO2(OH)2, ...). The exploration of these scenarios by the use of simulations requires, among the various parameters, the knowledge of the thermodynamic properties of the possibly formed elements. Our insilico study focusses on the determination of the enthalpies of formation of the former two species for which experimental uncertainties remain, using multi-configurational relativistic wavefunction method. The last part of the thesis focusses on the benchmark of the B2-PLYP functional for f-element systems, which turns out quite accurate with respect to the experimental data and the gold-standard CCSD(T) method. La question générale traitée dans cette thèse est de déterminer si, aujourd’hui, nous disposons d óutils théoriques efficaces pour d’ écrire la structure, la liaison et les propriétés thermodynamiques de système comprenant un actinide. Cette large question va être abordée à láide de trois études différentes. Les deux premières sont directement liées à l?industrie plastique et à la sureté nucléaire. La dernière, plus fondamentale concerne une analyse comparative d?une approche théorique nouvellement développée sur des systèmes comprenant des éléments f. Tout dábord, les cations alkyles contenant un actinide (Th, U) ou un métal de transition (Zr) coordonné à un arène se sont révélés efficaces pour la catalyse de la synthèse du polyéthylène. étonnamment, les activités catalytiques des cations alkyles dépendent du solvant. Pour comprendre cela et confirmer la tendance quónt ces complexes à se lier à l?arène, une étude en DFT dans un contexte relativiste combinée à une caractérisation de liaison avec la méthode ETS-NOCV fut faite. La deuxième étude vise à étoffer les bases de données thermodynamiques qui servent à explorer numériquement les scénarios d?accidents. Notre étude in silico porte sur la détermination des enthalpies de formation des deux espèces pour lesquelles des incertitudes expérimentales subsistent (PuO3 ou PuO2(OH)2, ...), en utilisant une méthode quantique multiconfigurationnelle et relativiste. La dernière partie de la théorie se concentre sur l?estimation de la précision de la fonctionnelle B2-PLYP pour les éléments f, qui sávère assez précise en comparaison aux données expérimentales et à la méthode de référence CCSD(T). Thesis Doctor of Philosophy (PhD)

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    MacSphere
    Thesis . 2018
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    Hal-Diderot
    Doctoral thesis . 2018
    Data sources: Hal-Diderot
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      MacSphere
      Thesis . 2018
      Data sources: MacSphere
      Hal-Diderot
      Doctoral thesis . 2018
      Data sources: Hal-Diderot
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    Authors: Kuntsche, S.;
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    NARCIS
    Doctoral thesis . 2011
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      Doctoral thesis . 2011
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    Authors: Kitchen, Arin Thomas;

    A Thesis Submitted to the Faculty of Graduate Studies and Research In Partial Fulfillment of the Requirements for the Degree of Master of Science in Geology, University of Regina. ix, * 216. Saskatchewan is home to world-class uranium (U) deposits associated with the unconformity between the Proterozoic Athabasca Basin and underlying Archean- Paleoproterozoic basement rocks. Many deposits exhibit a strong spatial association with post-Athabasca faults formed by the reactivation of basement-rooted structures. Deformation bands are products of localized strain in porous sedimentary rocks and are commonly associated with fault damage zones. They can significantly modify porosity due to grain rotation and granular flow. This study investigated deformation bands in sandstones of the basal Manitou Falls Group in eight drillhole fences that transect two fault corridors in the eastern Athabasca Basin: the NNE-trending C1 fault corridor that hosts the Gryphon deposit, and the WS shear zone, a splay of the former that hosts the Phoenix deposit. The deformation bands in the sandstone correspond to mainly shearenhanced compaction bands that increase in abundance toward post-Athabasca faults. The proportion of bands with visible signs of cataclasis increases with depth. Petrographic study places band formation relatively early in the host-rock paragenetic sequence, before introduction of drusy quartz veins and tourmaline associated with U mineralization. Paleo-stress analysis performed using basement- and sandstone-hosted structural orientation data identified two major stress regimes associated with each fault corridor. The first stress regime (A) groups strike-slip (cover) and thrust (cover and basement) solutions at both localities wherein the principal stress (σ1) lies in the horizontal plane roughly perpendicular to the fault; while the second regime (B) groups additional data, with the derived σ1 (~E–W) lying near-parallel to faults. Based on collective macroscopic to microscopic observations, deformation bands are inferred to have formed after Manitou Falls deposition in successive homogeneous stress regimes. It is contended that the bands initially formed in a strike-slip regime (A), characterized by subhorizontal NW–SE-trending σ1 that promoted reverse reactivation of moderately ESEdipping basement-rooted faults. A younger set of thrust-sense bands may have facilitated fault propagation through the sandstone cover, and potentially records the evolution of A to a fully contractional i.e., thrust regime. Most deformation bands thus appear to have formed early, under regional compression that preceded and accompanied basement fault reactivation that led to offset of the unconformity and influx of uraniferous fluids. The second regime (B, σ1 E–W) may mark younger sinistral strike-slip motion (basement and cover) which influenced the development of NW–SE transverse faults. The nature and timing of the bands in this study is compatible with the shallow basin model (<3 km) of uranium ore genesis. Student yes

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    oURspace
    Thesis . 2022
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      oURspace
      Thesis . 2022
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    Authors: Zhai, Yuanyuan;

    A Thesis Submitted to the Faculty of Graduate Studies and Research In Partial Fulfillment of the Requirements for the Degree of Doctor of Philosophy in Environmental Systems Engineering, University of Regina. xvii, 185 p. Temperature extremes are among the most studied features in the climate research community using both the observed datasets and the simulated outputs from climate models. Such extremes often lead to irreversible societal, ecological, and economic consequences across the globe. Moreover, projected results from climate models have also indicated that changes in future temperature-related extremes will become more frequent and intense with global warming. Therefore, comprehensive knowledge of long-term changes in the observed temperature extremes cannot only help to detect, attribute, and project climate change but can also enhance the development of effective mitigation and adaptation strategies (at regional or site-specific scales) towards the management of catastrophe caused by the extremes. In this dissertation, the observed spatial and temporal variations in temperature extremes are first analyzed at a hemispheric scale based on the newly developed HadEX3 dataset; the impact of large-scale atmospheric circulation patterns on dynamic changes in temperature extremes has also been examined. Then, future changes in extreme temperature variables at a much smaller scale (e.g., local scale) are investigated through a stepwise clustered downscaling method. Based on the downscaled results, future changes in the properties of moderate and severe heatwave conditions are further analyzed. Comparisons of the projected temperature variables and future heatwaves among different climate models provide valuable information on the ability of the models in simulating the long-term variations of temperature extremes. This research can be used to provide a scientific basis and valuable information to prepare for future changes in extreme heat conditions and mitigate the negative impacts of temperature-related extremes on society and the environment. Student yes

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    Thesis . 2022
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    Authors: Szulewski, Adam;
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    Authors: Abdulla, Louae M;

    Xylazine HCl (X), a common veterinary analgesic, has four reported polymorphs that are stable under ambient conditions, Form A (Xa), Form X (Xx), Form Z (Xz), and Form M (Xm), and one monohydrate (Xh). A commercial sample of X was found to contain mixtures of polymorphs and previous synthetic approaches proved unreliable and/or unsuccessful for the production of pure phases in high yields. Herein, we report methods for the reliable preparation and interconversion of polymorphs of X (including mechanochemical synthetic pathways), the discovery of a novel polymorph (Xy), and synthesis of three novel cocrystals with coformers containing amide and carboxylic acid functional groups. An understanding of ball milling protocols is essential so that these reactions can be optimized to ensure reproducible synthesis of the products in high yields. All materials in the current work were characterized using a combination of thermal analysis (TGA and DSC), powder and single-crystal X-ray diffraction (pXRD and scXRD), and multinuclear solid-state NMR (SSNMR) spectroscopy. 35Cl SSNMR is highlighted in this study for its versatility as a method for fingerprinting of polymorphs, hydrates, and cocrystals, and providing molecular-level structural information. Dispersion corrected plane-wave density functional theory (DFT-D2*) calculations are used to accurately position hydrogen atoms in the crystal structures obtained by pXRD or scXRD, yielding better ground-truth models of the hydrogen bonding environments of the chloride ions. Calculations on the refined structures yielded 35Cl EFG and magnetic shielding tensors that agree well with experimental values. PXRD and 35Cl SSNMR, in tandem with reliable calculations of EFG tensors, are essential for the development of crystal structure prediction protocols, and crucial for future studies involving HCl salts and their concomitant solid forms.

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    Authors: Etchen, Hailey;

    The growing harms of the opioid crisis in Canada has encouraged proponents of harm reduction to implement safe injection sites. However, harm reduction policies continue to vary throughout the nation, resulting in restricted or no access to these facilities in several provinces and territories (Pelley, 2019). Safe injection sites have been recognized as a valuable harm reduction strategy that successfully reduces the harms associated with illicit drug use of both the individual drug user, as well as the local community (Kral & Davidson, 2017; Jackson, 2020; Mrazovac, et al., 2020; Lovisotto & Baker, 2021). These sites effectively reduce and prevent needle sharing, overdose-related deaths, street injection, disorderly conduct on the streets, hospital/emergency services, and encounters with law enforcement (Mrazovac, et al., 2020). While the existing literature widely argues for the increased implementation of these facilities, safe injection sites continue to be controversial out of concern that there will be an increased societal and economic cost (Kerr, et al., 2017; Serkissian, 2018; Giarratano, 2019). This research analyzed the data from Statistics Canada’s September 2021 report on “Opioid and Stimulant-Related Harms in Canada”, to assess if there was any correlation between provinces and territories that had restricted or no access to safe injection sites and higher rates of opioid related harms and deaths (Special Advisory Committee on the Epidemic of Opioid Overdoses, 2021). Contrary to what has been found in the existing literature, this decreased access resulted in lower rates of opioid related harms and deaths. However, this research was capable of demonstrating the structural problems that lead to substance use disorder and ultimately demonstrated that the opioid crisis is still a serious problem that every region in the nation is still facing (Belzak & Halverson, 2018; Hatt, 2022).

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    Authors: Alexander, Nicolle;

    More than two decades after its introduction, neoliberal ideology has increasingly created a class and race-based gap in relation to student achievement in Ontario’s education system. Due to market-based rhetoric shaping policies and legislation, schools are increasingly encouraging students to adhere to the demands of a newly globalized world with a focus on the economy, regardless of their background. This study aims to analyze the presence of neoliberal reforms in Ontario’s education system through decisions made in government from Mike Harris’ in 1995 to the present Doug Ford administration. Specifically, I investigate how the so-called knowledge economy has produced a system that enables students deemed marketable, often from middle- and upper-class white backgrounds, and disables non-marketable students, most often the working poor and the working class, and racial and ethnic minorities, through funding cuts, heightened accountability, and standardized testing. By evaluating Ministry of Education policy documents and documents for both Conservative Premier campaigns, I analyzed the rhetoric used to introduce, consolidate and solidify neoliberal discourse throughout the past twenty years. The results showed that by simplifying education to quantifiable measures, the education system now measures concepts such as equity and inclusion in schools through standardized testing and monthly reports. Further, the rhetoric used to solidify equity and inclusion within the system focuses more on the presentation of both rather than materializing its action in schools. In order to minimize the current student achievement gap in our education system, funding needs to be focalized in social services cut by our government level to properly re“instate” the intended actions of these policies.

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    Authors: Edrisy, Mohamed;

    The emergence of commercial FEA solvers was a significant breakthrough that boosted the accuracy and complexity of engineering design. While composite materials are special materials, their mechanical properties can be custom made by considering the needs and requirements of the design problem. Given the rapidly expanding global consumption of composite materials, access to FEA solvers capable of assigning these materials is an absolute requirement.The CATIA software is a platform for designing, analyzing, and manufacturing of parts. However, there is no meaningful documentation in the public domain exploring the finite element functionalities of CATIA software for composite materials. Isotropic materials are used in numerous references investigating the CATIA FEA solver; however, the extension to composite materials has been lacking. The present study investigates two phenomena: (1) the procedure to import composite material properties into the Generative Structural Analysis workbench, and (2) the pre-processing and the post-processing toolbars and functionalities pertaining to this matter. The thesis does not address the CAD modelling aspects of the composites per se since there are many references available concentrating on such issues in the CATIA public literature.The composite models are selected from different scenarios labeled as benchmark problems. The results generated by CATIA’s native FEA solver for the static, dynamic, and buckling cases are compared with other tools available to the engineering community. These tools encompass the Classical Lamination Theory and two commercial CAE codes, known as ABAQUS and ANSYS.

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    Authors: Stone, Rachel Marie;

    Monitoring intracranial pressure (ICP) has become an important practice in patients with elevated ICP (e.g., traumatic brain injury) to improve patient outcome. However, little information exists surrounding chronic, but sub-clinical elevations in ICP, which may stem from classic cardiovascular risk factors, such as elevated blood pressure (BP). The current methods to assess ICP are invasive and costly; but optic nerve sheath diameter (ONSD) and blood flow pulsatility (pulsatility index; PI) are promising non-invasive techniques, both of which have been reported to strongly correlate with invasive measures of ICP in pathology. However, the interactions of BP, ONSD and PI in otherwise healthy adults, remains undetermined. Accordingly, the purpose of this investigation was to determine the relationship between ONSD, PI and BP, and to highlight possible sex differences in a population of young healthy adults. Sixteen participants (6 females) underwent assessment of arterial BP, ONSD (left and right eyes) and PI (left common carotid artery) using ultrasound. There was a strong correlation between mean ONSD (left and right eye combined) and PI (R=0.735, p=0.001). There was no significant relationship between PI and BP (R=0.058, p=0.832) or ONSD and BP (R=0.272, p=0.309). Additionally, there was a significant difference between males and females for mean ONSD, whereby males demonstrated a larger diameter (males=0.4860.110 vs. females=0.3530.062cm; p=0.018), but there was no significant difference in PI between males and females (males=2.3630.613 vs. females=1.9500.196; p=0.136). Results of this study confirm the relationship between ONSD and PI in a healthy population. While ICP was not directly assessed in the current study, the strong associations between ONSD and PI suggest that their combined assessment may be employed as a tenable surrogate to non-invasively measure ICP when the invasive measure of ICP is unfeasible.

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    Authors: Kervazo, Sophie;

    Universite de Lille, McMaster University The main question of this thesis is: do we have today the tools to efficiently describe the structure, the bonding and the thermodynamics of actinide systems? This broad question is answered thanks to three studies. The first two are directly applied to the plastic industry and the nuclear plant safety. The last one, more fundamental, concerns the benchmarking of newly developed theoretical approach on f-element systems. First, actinides and transition metal arene-coordinated alkyl cations have been recently proven to be efficient catalysts for ethylene polymerizations. Interestingly, thorium, uranium and zirconium alkyl cations? catalytic activity depends on the solvent. To understand these behaviors and to confirm the tendency of these complexes to engage in unusual-arene coordination, relativistic DFT calculations combined with a characterization of the interaction thanks to the ETSNOCV method are used. Second, in accident scenario along the reprocessing of spent nuclear fuel, plutonium can be released in various volatile forms (PuO2, PuO3 or PuO2(OH)2, ...). The exploration of these scenarios by the use of simulations requires, among the various parameters, the knowledge of the thermodynamic properties of the possibly formed elements. Our insilico study focusses on the determination of the enthalpies of formation of the former two species for which experimental uncertainties remain, using multi-configurational relativistic wavefunction method. The last part of the thesis focusses on the benchmark of the B2-PLYP functional for f-element systems, which turns out quite accurate with respect to the experimental data and the gold-standard CCSD(T) method. La question générale traitée dans cette thèse est de déterminer si, aujourd’hui, nous disposons d óutils théoriques efficaces pour d’ écrire la structure, la liaison et les propriétés thermodynamiques de système comprenant un actinide. Cette large question va être abordée à láide de trois études différentes. Les deux premières sont directement liées à l?industrie plastique et à la sureté nucléaire. La dernière, plus fondamentale concerne une analyse comparative d?une approche théorique nouvellement développée sur des systèmes comprenant des éléments f. Tout dábord, les cations alkyles contenant un actinide (Th, U) ou un métal de transition (Zr) coordonné à un arène se sont révélés efficaces pour la catalyse de la synthèse du polyéthylène. étonnamment, les activités catalytiques des cations alkyles dépendent du solvant. Pour comprendre cela et confirmer la tendance quónt ces complexes à se lier à l?arène, une étude en DFT dans un contexte relativiste combinée à une caractérisation de liaison avec la méthode ETS-NOCV fut faite. La deuxième étude vise à étoffer les bases de données thermodynamiques qui servent à explorer numériquement les scénarios d?accidents. Notre étude in silico porte sur la détermination des enthalpies de formation des deux espèces pour lesquelles des incertitudes expérimentales subsistent (PuO3 ou PuO2(OH)2, ...), en utilisant une méthode quantique multiconfigurationnelle et relativiste. La dernière partie de la théorie se concentre sur l?estimation de la précision de la fonctionnelle B2-PLYP pour les éléments f, qui sávère assez précise en comparaison aux données expérimentales et à la méthode de référence CCSD(T). Thesis Doctor of Philosophy (PhD)

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    MacSphere
    Thesis . 2018
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    Hal-Diderot
    Doctoral thesis . 2018
    Data sources: Hal-Diderot
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      MacSphere
      Thesis . 2018
      Data sources: MacSphere
      Hal-Diderot
      Doctoral thesis . 2018
      Data sources: Hal-Diderot
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    Authors: Kuntsche, S.;
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    NARCIS
    Doctoral thesis . 2011
    Data sources: NARCIS
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      NARCIS
      Doctoral thesis . 2011
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    Authors: Kitchen, Arin Thomas;

    A Thesis Submitted to the Faculty of Graduate Studies and Research In Partial Fulfillment of the Requirements for the Degree of Master of Science in Geology, University of Regina. ix, * 216. Saskatchewan is home to world-class uranium (U) deposits associated with the unconformity between the Proterozoic Athabasca Basin and underlying Archean- Paleoproterozoic basement rocks. Many deposits exhibit a strong spatial association with post-Athabasca faults formed by the reactivation of basement-rooted structures. Deformation bands are products of localized strain in porous sedimentary rocks and are commonly associated with fault damage zones. They can significantly modify porosity due to grain rotation and granular flow. This study investigated deformation bands in sandstones of the basal Manitou Falls Group in eight drillhole fences that transect two fault corridors in the eastern Athabasca Basin: the NNE-trending C1 fault corridor that hosts the Gryphon deposit, and the WS shear zone, a splay of the former that hosts the Phoenix deposit. The deformation bands in the sandstone correspond to mainly shearenhanced compaction bands that increase in abundance toward post-Athabasca faults. The proportion of bands with visible signs of cataclasis increases with depth. Petrographic study places band formation relatively early in the host-rock paragenetic sequence, before introduction of drusy quartz veins and tourmaline associated with U mineralization. Paleo-stress analysis performed using basement- and sandstone-hosted structural orientation data identified two major stress regimes associated with each fault corridor. The first stress regime (A) groups strike-slip (cover) and thrust (cover and basement) solutions at both localities wherein the principal stress (σ1) lies in the horizontal plane roughly perpendicular to the fault; while the second regime (B) groups additional data, with the derived σ1 (~E–W) lying near-parallel to faults. Based on collective macroscopic to microscopic observations, deformation bands are inferred to have formed after Manitou Falls deposition in successive homogeneous stress regimes. It is contended that the bands initially formed in a strike-slip regime (A), characterized by subhorizontal NW–SE-trending σ1 that promoted reverse reactivation of moderately ESEdipping basement-rooted faults. A younger set of thrust-sense bands may have facilitated fault propagation through the sandstone cover, and potentially records the evolution of A to a fully contractional i.e., thrust regime. Most deformation bands thus appear to have formed early, under regional compression that preceded and accompanied basement fault reactivation that led to offset of the unconformity and influx of uraniferous fluids. The second regime (B, σ1 E–W) may mark younger sinistral strike-slip motion (basement and cover) which influenced the development of NW–SE transverse faults. The nature and timing of the bands in this study is compatible with the shallow basin model (<3 km) of uranium ore genesis. Student yes

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    oURspace
    Thesis . 2022
    Data sources: oURspace
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      oURspace
      Thesis . 2022
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    Authors: Zhai, Yuanyuan;

    A Thesis Submitted to the Faculty of Graduate Studies and Research In Partial Fulfillment of the Requirements for the Degree of Doctor of Philosophy in Environmental Systems Engineering, University of Regina. xvii, 185 p. Temperature extremes are among the most studied features in the climate research community using both the observed datasets and the simulated outputs from climate models. Such extremes often lead to irreversible societal, ecological, and economic consequences across the globe. Moreover, projected results from climate models have also indicated that changes in future temperature-related extremes will become more frequent and intense with global warming. Therefore, comprehensive knowledge of long-term changes in the observed temperature extremes cannot only help to detect, attribute, and project climate change but can also enhance the development of effective mitigation and adaptation strategies (at regional or site-specific scales) towards the management of catastrophe caused by the extremes. In this dissertation, the observed spatial and temporal variations in temperature extremes are first analyzed at a hemispheric scale based on the newly developed HadEX3 dataset; the impact of large-scale atmospheric circulation patterns on dynamic changes in temperature extremes has also been examined. Then, future changes in extreme temperature variables at a much smaller scale (e.g., local scale) are investigated through a stepwise clustered downscaling method. Based on the downscaled results, future changes in the properties of moderate and severe heatwave conditions are further analyzed. Comparisons of the projected temperature variables and future heatwaves among different climate models provide valuable information on the ability of the models in simulating the long-term variations of temperature extremes. This research can be used to provide a scientific basis and valuable information to prepare for future changes in extreme heat conditions and mitigate the negative impacts of temperature-related extremes on society and the environment. Student yes

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    Thesis . 2022
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      oURspace
      Thesis . 2022
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    Authors: Szulewski, Adam;
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    NARCIS
    Doctoral thesis . Thesis . 2019
    Data sources: Crossref; NARCIS
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