Kinetic Properties of Triple Junctions in Metals Studied by Atomistic Simulations

Qingzhe, Song Jr

27 February 2015

Nanocrystalline materials could exhibit high mechanical yield strength. Nevertheless, with a high volume fraction in nanocrystalline material, grain boundaries and triple junctions which store a relatively high free energy, are thermally instable which potentially contribute to grain growth. On the other hand, since both grain boundaries and triple junctions are prior sites of impurity enrichment which could in return reduce the triple junction energy, alloys with impurity enriched in grain boundaries and triple junctions are widely applied to stabilize the nanostructures. However, past studies mainly focused on grain boundaries and the kinetic properties of triple junctions and their influences on the thermal stability of nanocrystalline metals is less studied. In this work, triple junction mobility and impurity diffusivity in triple junction are studied by molecular dynamics simulations. Specifically, interface random walk method due to thermal fluctuation which has been widely applied to extract grain boundary mobility is extended to study triple junction motion.

Triple Junction

Molecular Dynamic Simulation

Power V. Threhsold: Near-Channel Morphology Controls Sediment Rating Curve Shape in Coastal Redwood Watersheds

Fisher, Adam Caspian Nebraska

01 December 2019

River sediment is one of the most pervasive pollutants in the world. Excess amounts of fine sediment can reduce water quality, damage stream ecosystems, and harm aquatic life. Both natural and human-caused processes can add sediment to a river, such as tectonic uplift, landslides, and timber harvesting. Therefore, it is important to understand how fine sediment enters and moves through a rive system to inform policymakers and land-managers on effective ecosystem management. In this study, we determined how the relationship between river flow and suspended sediment changed among watersheds along the North Coast of California. We found a rise in suspended sediment concentration at median flows following extreme timber harvesting. Additionally, our results indicate that river flow and suspended sediment relationships are influenced by timber harvest activity, tectonic uplift, rainfall patterns, and near-channel environments. These results support previous findings that extreme land disturbance in a watershed, be it natural or human-caused, can change river flow and suspended sediment relationships. Our results suggest that policymakers and land-managers should take into account tectonic uplift when making regulation and should prioritize protecting near-channel environments.

Sediment rating curve

power relationship

threshold relationship

random forest

redwood

Mendocino Triple Junction

VSURF

Environmental Sciences

Teleseismic Imaging of the Crust and Upper Mantle in the Western United States

Liu, Kaijian

06 September 2012

High-resolution seismic images of lithospheric structures allow us to infer the tectonics that modified the lithosphere. We apply such methods to understand Cenozoic modification of the lithosphere by tectonic and magmatic processes in the tectonically active western United States. Using USArray Transportable and Flexible Array data, we present high-resolution images for three regions in this thesis. (1) In the Mendocino triple junction, we use a joint inversion of Rayleigh-wave dispersion data and receiver functions to obtain a new crust and upper Vs model to ~150km depth. The model shows four distinct, young lithosphere-asthenosphere boundary systems. A low-Vs anomaly beneath the Great Valley-Sierra Nevada reconciles existing slab window models with the mantle-wedge geochemical signatures in Coast Range volcanics, and explains the ~3 Myr delay of the onset of volcanism after slab removal. Uppermost mantle low velocities provide evidence for forearc mantle serpentinization extending along the Cascadia margin. (2) In the Colorado Plateau, a Rayleigh wave tomography model sheds light on the volcanism along the margins and plateau uplift. Strong upper mantle heterogeneity across the plateau edge results from the combined effect of a ~200-400 K temperature difference and ~1% partial melt. A ring of low velocities under the plateau periphery suggests that the rehydrated Proterozoic lithosphere is progressively removed by convective processes. Particularly, a high-Vs anomaly imaged beneath the western plateau adds evidence for a downwelling/delamination hypothesis [Levander et al., 2011]. Thermo-chemical edge-driven convection causing localized lithospheric downwelling provides uplift along the margins and magmatic encroachment into the plateau center. (3) In the final study, we developed a 3-D teleseismic scattering wave imaging technique based on the Kirchhoff approximation and 3-D inverse Generalized Radon Transform. Synthetic tests demonstrate higher resolution imaging for continuous, irregular interfaces or localized scatterers, in comparison to conventional methods. Applied to the High Lava Plains dataset, the transmission coefficient structure shows a deepening Moho near 117.6°W and three negative events that correlate well with the Rayleigh wave low-Vs zones. Images made with the Mendocino data clearly show rapidly decreasing lithosphere-asthenosphere boundary depths from the subduction to transform regime.

Rayleigh wave tomography

Joint inversion

Scattered wave imaging

Kirchhoff approximation

Colorado Plateau

Mendocino Triple Junction

Influences of stress-driven grain boundary motion on microstructural evolution in nanocrystalline metals

Aramfard, Mohammad

01 December 2015

Nanocrystalline (NC) metals with averaged grain size smaller than 100 nm have shown promising mechanical properties such as higher hardness and toughness than conventional coarse-grained metals. Unlike conventional metals in which the deformation is controlled by dislocation activities, the microstructural evolution in NC metals is mainly dominated by grain rotation and stress-driven grain boundary motion (SDGBM) due to the high density of grain boundaries (GBs). SDGBM is thus among the most studied modes of microstructural evolution in NC materials with particular interests on their fundamental atomistic mechanisms. In the first part of this thesis, molecular dynamics simulations were used to investigate the influences of Triple Junctions (TJs) on SDGBM of symmetric tilt GBs in copper by considering a honeycomb NC model. TJs exhibited asymmetric pinning effects to the GB migration and the constraints by the TJs and neighboring grains led to remarkable non-linear GB motion in directions both parallel and normal to the applied shear. Based on these findings, a generalized model for SDGBM in NC Cu was proposed. In the second part, the interaction of SDGBM with crack, voids and precipitates was investigated. It was found that depending on the GB structure, material type and temperature, there is a competition between different atomistic mechanisms such as crack healing, recrystallization and GB decohesion. It is hoped that the findings of this work could clarify the micro-mechanisms of various experimental phenomena such as grain refinement in metals during severe plastic deformation, which can be used to design optimized route of making stabilized bulk NC metals. / February 2016

Geology of the North Fiji Basin Triple Junction and an Investigation into Triple Junction Formation

Besaw, Mary

30 November 2022

Triple junctions form at the intersection of three tectonic plates and are a necessary consequence of new microplate formation. The splitting of a plate into two smaller plates always results in the formation of two triple junctions. As a result, they are fundamental structural elements of ocean floor geodynamics. Their evolution is influenced by the complex interplay of near- and far-field plate dynamics, crustal types, and mantle processes, and they include a wide range of boundary types. The long-term stability and evolution of triple junctions are influenced by continuous plate reorganization, such as in the complex microplate mosaics of the Western Pacific margin. To better understand how triple junctions form and respond to near- and far-field stresses, this study presents a detailed examination of the North Fiji Basin Triple Junction (NFBTJ), which is located within one of the largest and most mature back-arc basins of the Pacific margin. A new geological map of the NFBTJ at a 1:500,000 scale is presented. The mapping provides insight into the factors controlling plate fragmentation and crustal growth during triple junction formation. The map is based on a compilation of more than 50 years of ship-based bathymetry, backscatter data, gravity and magnetics used to reconstruct the spreading history, magmatic productivity, tectonic fabric and origin of geological formations of the basin. These aspects also have important implications for understanding the origins and evolution of large-scale back-arc basin hydrothermal systems. Crustal growth in the NFB is recorded by the area-age relationships of different geological formations identified in the new geological map. The triple junction is the site of volume addition related to enhanced magmatic productivity, with a large Central Volcanic Complex (CVC) (shield volcano and inflated ridge) at its centre and a well-developed spreading ridge along the SW limb. Extensive lava flows emanating from the CVC covers early spreading-related fabric in the NE and NW limbs. The large shield volcano, which is 0.5 km high and occupies an area of at least 62.3 km², has a distinctive 2.5-km diameter summit caldera with extensive hydrothermal activity in the south. The CVC and surrounding lava flows are estimated to have grown in place at a rate of 3,000 m²/yr, thus dominating the recent history of the NFBTJ. By contrast, earlier crustal growth along the SW and NW spreading segments, prior to the emergence of CVC, is estimated to have been ~1,650 m²/yr and 200 m²/yr respectively. The quantitative analysis of rifting and the eruptive history highlight previously unrecognized near and far-field geodynamic influences on the triple junction formation. In particular, the pulse of crustal growth at the NFB beginning at 3 Ma was related to rift propagation from the south in response to rotation of the NFB that produced some of the fastest growing crust in the oceans. Comparisons with a global database of triple junctions show that the evolution of the NFBTJ shares many features with other microplate mosaics and that processes related to triple junction formation is associated with crustal growth wherever triple junctions occur. The high heat flow and voluminous mafic magmatism has been compared to rapid crustal growth in some ancient greenstone belts, such as the Archean Abitibi Greenstone Belt in the Superior Province of Canada. In particular, the NFBTJ is a possible modern analog of large central volcanic complexes that characterize ancient greenstone-belt development.

Geology

Metal Oceans

Image Create

Microplates

Seafloor Geology

Geological Mapping

Economic Geology

Tectonics

Triple Junction

VMS deposits

Evolution of the Graciosa, S. Miguel and Santa Maria volcanic islands : implications for the Nubia-Eurasia plate boundary in the Azores / Évolution des îles volcaniques de Graciosa, S. Miguel et Santa Maria : implications pour la limite de plaque Eurasie-Nubie dans les Açores

Sibrant, Aurore

03 November 2014

L’archipel des Açores dans l’océan Atlantique est édifiées sur un épais plateau océanique, à proximité de la jonction triple entre les plaques Nord-américaine (Na), Nubienne (Nu) et Eurasienne (Eu). La formation du plateau et l’origine du volcanisme ont été le plus souvent attribués à la présence d’une instabilité mantellique. Cependant, la répartition et la morphologie des édifices volcaniques semblent avoir été grandement influencés par la déformation régionale liée à la migration de la frontière de plaque (Eu/Nu). En effet, la frontière serait passée d’une faille transformante aujourd’hui inactive, la zone de fracture est des Açores (EAFZ), à un rift ultra lent actif appelé le Rift de Terceira (TR).Lors de ce travail, nous utilisons le volcanisme comme marqueur de la déformation régionale. Nous nous intéressons particulièrement aux îles de S. Miguel et Graciosa, qui sont localisées à l’intérieur du TR, et à Santa Maria, une île volcanique éteinte qui se situe entre la EAFZ et le TR. De par leur position, ces trois îles constituent donc des cibles particulièrement appropriées afin d’étudier l’architecture et l’évolution de la frontière de plaque Eu/Nu durant les dernier Millions d’années. A partir de nouvelles données géomorphologiques, stratigraphiques, géochronologiques et tectoniques, couplées aux données bathymétriques et géophysiques disponibles, nous reconstruisons les étapes successives de construction et de démantèlement de ces îles puis discutons de leur signification géodynamique. Ces données sont ensuite complétées par des expériences de mécanique des fluides afin d’investiguer les liens possibles entre un panache mantellique, la migration de la frontière de plaque sur plusieurs échelles d’espace et de temps.Les résultats montrent que les édifices localisés dans le TR se construisent via des pulses volcaniques courts (<100 kyr) et relativement synchrones, séparés par des épisodes d’effondrements catastrophiques. Nous proposons qu’une telle évolution reflète des épisodes brefs et intenses de déformation régionale le long de la frontière de plaque active. La distribution des marqueurs tectoniques ainsi que leurs orientations N110 et N150 dans la partie Est de S. Miguel, nous conduit à proposer que l’extension oblique du TR est principalement accommodée par les failles bordières majeures du rift. Nous identifions une nouvelle tendance tectonique orientée N50° qui pourrait représenter des failles transformantes accommodant les variations d’obliquité du TR. L’activité de île de Santa Maria est ici datée entre 5.7 et 2.8 Ma. S. Maria a été façonnée par plusieurs effondrements sectoriels catastrophiques, le plus probablement déclenchés par les mouvements tectoniques régionaux. Nous identifions également une nouvelle structure de type graben reliant les îles de S. Maria et S. Jorge plus loin au NW. La forme de ce graben est semblable au TR et est située entre l’ancienne et la nouvelle frontière Eu/Nu. Nous interprétons ce graben comme un ancien rift transitionnel et donc comme une ancienne frontière de plaque Eu/Nu. A partir de nos données géochronologiques, nous proposons que la partie Est de ce rift transitionnel aurait migré vers la partie Est du TR entre 2.8 et 1.7 Ma.La migration de la frontière Eu/Nu a été interprétées par Vogt and Jung (2004) comme résultant de sauts successifs vers le NE de l’axe du Rift afin de maintenir sa position au dessus d’un point chaud fixe. Nos expériences de mécanique des fluides suggèrent que l’archipel des Açores, comme celui des Canaries, du Cap Vert, de Madère ainsi que les volcans sous marins de Great Meteor sont la signature en surface d’un groupe d’instabilités mantellique prenant naissance et remontant à partir du sommet d’un dôme thermochimique situé dans le manteau inférieur. De plus, Ces panaches secondaires pourraient être suffisamment faibles pour adapter leurs mouvements aux équilibres de forces pré-existants, notamment la structure et la morphologie de la lithosphère. / The Azores archipelago in the Atlantic comprises nine volcanic islands which developed on a thick oceanic plateau close to the Triple Junction between the North American (Na), the Nubian (Nu), and the Eurasian (Eu) lithospheric plates. The formation of the plateau and the origin of the volcanism remain controversial, but have been generally attributed to a plume-like mantle instability. However, the distribution of the volcanic edifices east of the Mid-Atlantic Ridge (MAR) appears greatly influenced by regional deformation associated with the northward migration of the Eu/Nu plate boundary from an extinct old transform fault, the East Azores Fracture Zone (EAFZ), up to the presently active ultra-slow Terceira Rift (TR). In this thesis, we use the volcanism as a marker for regional deformation. We especially focus on S. Miguel and Graciosa, which are located within the TR, and on S. Maria, an old volcanically extinct island located between the EAFZ and the TR. These three islands thus constitute particularly suitable targets to track the architecture and the evolution of the Eu/Nu plate boundary during the last few Myr. From new geomorphological, stratigraphic, geochronologic, structural/tectonic data, and existing bathymetric and geophysical data, we reconstruct the successive stages of growth and destruction of the islands, and discuss their geodynamic meaning. These data are then complemented by fluid dynamic modelling using laboratory experiments to examine the possible links between mantle instability, plate boundary migration and the development of the volcanism on various spatial and temporal scales.The new results on the islands show that the edifices located within the TR grew through short (<100 kyr) and partly synchronous volcanic pulses, separated by catastrophic sector collapses. We propose that such evolution reflects brief and intense episodes of regional deformation along the still active Eu/Nu plate boundary. The distribution of tectonic markers and the recognition of N110 and N150 tectonic structures in eastern S. Miguel leads us to propose that oblique extension in the TR is mainly accommodated by the master faults of the rift, and that the TR is presently not the locus of appreciable sea-floor spreading. Furthermore, we identify a new N050 trend, which may represent transform faults accommodating the variation in obliquity of the TR. The activity of S. Maria is here dated between 5.7 and 2.8 Ma. Like the recent islands, S. Maria experienced catastrophic flank collapses, most probably triggered by regional tectonics. We identify a new graben structure linking Santa Maria to the island of S. Jorge further NW. The shape of this graben is similar to the TR and it is located between the EAFZ and the current plate boundary. We interpret this graben as a former transient rift, and therefore an old Eu/Nu plate boundary. From the new data, we propose that the eastern part of the transient rift migrated to the eastern part of the TR between 2.8 Ma and 1.7 Ma.The overall migration of the Eu/Nu plate boundary to the north and the creation of the Azores plateau has been interpreted by Vogt and Jung (2004) as resulting from successive NE jumps of the rift axis to maintain its position over a fixed ‘hotspot’. Our fluid mechanics experiments suggest that the Azores, as Canary, Cape Verde, Madeira Islands and Great Meteor seamounts might be the surface signature of a cluster of mantle instabilities rising from the top of a large thermochemical dome located in the lower mantle. However, such secondary plumes present a strong time-dependence 5-40 Myr time scale. Moreover, they could be sufficiently weak to adapt their motions to the pre-existing force balances and morphology of the lithosphere. We therefore present a scenario of the Azores area evolution combining a triple junction and decompression melting buoyant material (i.e. such in volatiles and/or temperature) under a thickening lithosphere.

Limite de plaque Eu/Nu

Îles volcaniques

Jonction triple des Açores

Glissement de flanc

Eu/Nu plate boundary

Volcanic islands

Azores Triple Junction

Flank collapse

Heterogene Interdiffusion von nanokristallinen Cu/Co/Au-Schichten / Heterogenous interdiffusion of nanocrystalline Cu/Co/Au-layers

Lang, Christian

30 October 2001

No description available.

530 Physik

Mathematics and Computer Science

dünne Schichten

Diffusion

Interdiffusion

Diffusionsbarriere

Korngrenzdiffusion

Triple Junction

DIGM

Cu/Au

Cu/Co/Au

Tomographische Atomsonde (TAP)

nanokristalline Materialien

thin films

diffusion

interdiffusion

diffusion barrier

grain boundary diffusion

triple junction

DIGM

Cu/Au

Cu/Co/Au

tomographic atomprobe (TAP)

nanocrystalline materials

33.60 51.10

RV

Développement, fabrication et caractérisation de modules photovoltaïques à concentration à ultra haut rendement à base de micro-concentrateurs / Development, manufacturing and characterization of ultra-high efficiency concentrated photovoltaic modules based on micro-concentrators

Ritou, Arnaud

22 November 2018

Les modules photovoltaïques à concentration (CPV) ont tendance à se miniaturiser. D’une part, la distance focale plus courte des optiques de concentration permet de réduire le besoin en matériaux pour l’assemblage du module ; et d’autre part, le rendement des modules est sensiblement meilleurs que ceux des modules CPV de taille normale. L’étude de chaque élément de la chaine de pertes dans la littérature des micro-concentrateurs a permis de confirmer cette tendance. Cette thèse aborde les problématiques de coût et de rendement à travers la conception optique d’un concentrateur à deux étages de lentilles, sa fabrication puis une étude approfondie de ses performances.La méthode de conception, développée à partir de lois d’optique géométrique et non-imageante, définit le profil des lentilles à λ=589nm en premiers lieux. Ensuite, une simulation par tracé de rayons permet d’optimiser ces lentilles pour l’ensemble du spectre solaire puis d’étudier l’impact de leur désalignement lors de la mise en module. Les limites des déplacements des éléments du module ainsi déterminées conditionnent la précision de sa fabrication. Dans notre cas, l’alignement est réalisé automatiquement par un jeu de repères mécaniques lors du moulage simultané des optiques primaires (POE) et des optiques secondaires (SOE). Contrairement aux procédés habituels, ce procédé de moulage innovant permet d’assembler un module en seulement trois étapes au lieu de cinq.Pour caractériser les micro-concentrateurs réalisés, une méthode de mesure du rapport module à cellule (CTM) est développée. Pour cela, le rendement des cellules est mesuré en simulateur solaire avant et après leur mise en module. Les cellules multi-jonctions mises en œuvre étant sensibles aux variations spectrales et spatiales de l’éclairement, la validation préalable de ces mesures est primordiale. En complément du CTM qui quantifie la somme des pertes introduites lors de la mise en module, d’autres mesures sont développées pour comprendre la chaine de perte plus en détails.Le dispositif étudié au cours de cette thèse utilise des cellules triple-jonction de 0,6 x 0,6mm² avec une concentration de 1000X et atteint un rendement de 29%. Le CTM est de 70% et l’analyse de la chaine de perte montre que le procédé inventé n’impacte pas ou peu les performances du module. De plus, la détermination de la chaine de perte montre que les pertes par réflexion et par absorption sont prédominantes, au même titre que les pertes dues à la diffusion des lentilles ainsi que les pertes dues aux non-uniformités d’éclairement sur la cellule. / The actual trend of CPV is the micro-scaling of modules. A bibliographic study shows that shorter focal length of optics implies less material consumption in manufacturing and an enhanced efficiency of the modules. In this thesis, a double stage refractive micro-concentrator is designed, manufactured and characterized. First, the optical design of the concentrator is based on non-imaging technics. Thus, the profile of the lenses is generated for a single wavelength. Then, a ray tracing simulator is used to optimize the lens profile for the overall solar spectrum and study the concentrator element misalignment effect on the performances.Secondly, a three steps self-assembly process is developed instead of the usual five steps one. Both POE and SOE lenses of our device are molded simultaneously and a mechanical guidance system in the mold ensures the alignment of the micro-concentrator elements (POE, SOE and Cell).Finally, the performances measurements of the manufactured modules are managed in solar simulators in which the lightening condition are previously studied and validated. Comparing the bare cells efficiency with the module efficiency, the cell-to-module ratio (CTM) represents the overall losses in the module. Further experiments are managed to quantify each loss of the module. The manufactured and characterized micro-concentrator is a 1000X concentrating ratio with 0.6 x 0.6mm² triple junction cells. It efficiency is 29% with a 70% CTM. Finally, the loss chain study reveals that the three steps self-assembly process is reliable.

Micro-Concentrateurs PV

Auto-Alignement

Optiques de concentration

Cellules triple-Jonction

Pertes cell-To-Module

Optiques moulées

Micro-Scaled CPV

Self-Assembly

Concentrating optics

Triple-Junction cells

Cell-To-Module losses

Molded optics

530

Mass-wasting episodes in the geological evolution of the Azores islands : timing, recurrence, mechanisms and consequences / Épisodes de destruction gravitaire durant l'évolution géologique des îles Açores : âge, récurrence, mécanismes et conséquences / Episódios de movimento de massa na evolução geológica das Ilhas Açorianas : idade, recorrência, mecanismos e consequências

Goulart da Costa, Ana Cristina

09 February 2015

Les grands effondrements de flanc sont des phénomènes récurrents dans l'évolution géologique des îles océaniques. Parfois catastrophiques. les épisodes de déstabilisation sont capables de générer d'importants tsunamis, et représentent donc des événements dangereux. Le îles des Açores à l’est de la Dorsale Médio-Atlantique sont situées sur la frontière de plaques diffuse entre l’Eurasie (Eu) et la Nubie (Nu), et donc sous l'influence d’un contrôle structural et d’une activité sismique importante (événements historiques de magnitude jusqu'à environ 7). Avant le projet MEGAHazards (PTDC/CTE-GIX /108149/2008, financé par FCT, Portugal), les effondrements de flanc à grande échelle étaient considérés inexistants aux Açores, principalement à cause de la petite dimension des édifices volcaniques. Ici, nous concluons sans équivoque que de tels événements se sont bien produits dans les Açores. La thèse de doctorat porte sur l'évolution de la ride volcanique escarpée de Pico-Faial, qui se trouve sur une faille normale majeur associée à la limite diffuse Nu/Eu, et particulièrement sur les grands effondrements de flanc qui ont affecté l'île de Pico. A partir de modèles numériques de terrain à haute-résolution, de nouvelles données structurales, stratigraphiques, et de datations K-Ar, nous avons: (1) calibré la stratigraphie volcanique de Pico; (2) reconstruit les phases majeures de croissance et de destruction des îles de Pico durant les derniers 200 kyr; (3) reconstruit l'évolution du slump actif du SE d'île de Pico, au cours des derniers 125 kyr; (4) fourni de nouvelles interprétations concernant l'escarpement qui coupe le flanc S du stratovolcan de Pico; (5) montré l’existence d’effondrements catastrophiques des flancs N et S de l'île de Pico entre ca. 125 et 70 ka, qui ont généré d'importants débris sous-marins; et (6) proposé que l’accommodation de l' extension associé à la limite des plaques Nu/Eu le long de la ride Pico-Faial, a été consolidée dans les derniers ca. 125 ka. De nombreux facteurs favorisant le développement des instabilités de flanc sur les îles volcaniques ont été proposés dans la littérature, mais leur rôle exact et leur contribution mutuelle restent mal compris. Nous présentons ici une solution analytique pour la théorie du Prisme Critique de Coulomb cohésif, appliquée à des instabilités gravitaires, et des simulations analogiques complémentaires pour tester certaines implications structurales du modèle. Nous étudions l'impact de variables comme: la géométrie et les dimensions du prisme, la cohésion, le coefficient de friction interne et le rapport de surpression de fluide (surpression de fluide divisé par la pression lithostatique).Nous concluons que: (1) l’augmentation de la pente des flancs du volcan et du décollement basal conduit à une diminution du rapport de surpression de fluide nécessaire pour produire la rupture; (2) la diminution de l'effet stabilisateur de la cohésion avec la profondeur du décollement basal favorise l'occurrence de déstabilisation gravitaire profonde à grande échelle pour des décollements plus profonds que 2000-2500 m. Pour des décollements basales plus superficiels, les rapports de surpression de fluide nécessaires pour induire la rupture sont relativement supérieurs. Pour les décollements moins profonds, des flancs très inclinés et des matériaux très résistants, la rupture superficielle parallèle à la surface du flanc est favorisée, par rapport à la rupture profonde; (3) Pour des profondeurs supérieures à 2500 m (cas des grands édifices volcaniques), tandis que l'impact de la cohésion diminue, l'effet de la friction interne le long du décollement basal devient relativement plus importante. L’étude des grands effondrements de flanc dans les îles des Açores, et la modélisation des variables qui contrôlent la stabilité des édifices volcaniques demeurent cependant incomplets, et seront approfondis dans un futur proche. / Large-scale flank collapses are recurrent in the geological evolution of volcanic ocean islands. Such catastrophic episodes of destabilization can be voluminous and generate large tsunamis, which may cause considerable damage and thus represent extremely hazardous events. The Azores islands east of the Mid-Atlantic Ridge are located on the Eurasia(Eu)/Nubia(Nu) plate boundary, and therefore subject to structural control and seismic activity (historical events of magnitude up to ca. 7). However, prior to MEGAHazards Project (PTDC/CTE-GIX/108149/2008, funded by FCT, Portugal), large-scale flank collapses in the Azores were considered to be lacking, mainly due to the small dimension of the volcanic edifices. Here, we conclude unequivocally on the occurrence of such events in the Azores. The present PhD thesis addresses the evolution of the Pico-Faial steep volcanic ridge, which sits on a major normal fault associated with the Eu/Nu diffuse boundary, focusing especially on the large-scale flank failures in Pico Island. Based on high-resolution sub-aerial and submarine Digital Elevation Models, new structural and stratigraphic data, and high-resolution K-Ar dating on separated volcanic groundmass, we: (1) constrain the volcano stratigraphy of Pico; (2) reconstruct the major phases of growth and destruction in Pico and Faial islands in the last 200 kyr; (3) reconstruct the ca. 125 kyr evolution of the currently active large-scale slump in the SE of Pico Island; (4) provide new structural data/interpretations regarding the scarp that sharply cuts the S flank of Pico Stratovolcano; (5) report on the occurrence of large-scale failures in the N and S flanks of the Pico Island between ca. 125 and 70 ka, which generated large submarine debris deposits; and (6) propose that the role of the Pico-Faial ridge as a structure accommodating part of the extension on the diffuse Nu/Eu boundary has been consolidated in the last ca. 125 kyr. Many factors favouring the development of such large-scale flank instabilities have been proposed in the literature, but their exact role and mutual contribution remain poorly understood. We here present an analytical solution for the cohesive Coulomb Critical Wedge theory applied to gravitational instabilities, and associated analogue simulations to test some structural implications of the model. We investigate the impact of several variables on the stability of volcanic flanks, including: wedge slope and dimensions, cohesion, internal friction along the basal detachment, and fluid overpressure. We conclude that: (1) the steepening of the volcanic flanks and basal detachment lead to a decrease in the fluid overpressure ratio (fluid overpressure divided by lithostatic pressure) necessary to produce failure. (2) The decrease of the stabilizing effect of cohesion with increasing depth of the basal detachment favours the occurrence of deep-seated large-scale gravitational destabilization in basal detachments deeper than ca. 2000-2500 m (in volcanic edifices necessarily higher than 2500 m). For shallower basal detachments, the overpressure ratios required to induce failure are comparatively larger. For shallower basal detachments, steeper flanks and stronger edifice materials, shallow failure parallel to the edifice flank surface is favoured, instead of deep-seated deformation. (3) With increasingly deeper basal detachments (possible in larger volcanic edifices), while the impact of cohesion diminishes, the relative importance of basal internal friction for the stability of the edifice increases. The investigation of the occurrence of large-scale mass-wasting in the Azores islands, and the modelling of the variables controlling the stability of the volcanic edifices are only at their first steps and will be further developed in the future.

Ride volcanique Pico-Faial

Triple jonction des Açores

Grands effondrements de flanc

Facteurs déstabilisants

Prisme critique de Coulomb cohésif

Pico-Faial volcanic ridge

Azores triple junction

Large-scale flank collapses

Destabilizing factors

Cohesive critical Coulomb wedge

Crista vulcânica Pico-Faial

Junção Tripla dos Açores

Colapsos de flanco de larga escala

Factores destabilizadores

Prisma Crítico de Coulomb coesivo