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Zeitschriftenartikel zum Thema "Zonal structures"
Falessi, Matteo Valerio, und Fulvio Zonca. „Transport theory of phase space zonal structures“. Physics of Plasmas 26, Nr. 2 (Februar 2019): 022305. http://dx.doi.org/10.1063/1.5063874.
Der volle Inhalt der QuelleLiu, Libo, Yuyan Yang, Huijun Le, Yiding Chen, Ruilong Zhang, Hui Zhang, Wenjie Sun und Guozhu Li. „Unexpected Regional Zonal Structures in Low Latitude Ionosphere Call for a High Longitudinal Resolution of the Global Ionospheric Maps“. Remote Sensing 14, Nr. 10 (11.05.2022): 2315. http://dx.doi.org/10.3390/rs14102315.
Der volle Inhalt der QuelleBakas, Nikolaos A., und Petros J. Ioannou. „A theory for the emergence of coherent structures in beta-plane turbulence“. Journal of Fluid Mechanics 740 (06.01.2014): 312–41. http://dx.doi.org/10.1017/jfm.2013.663.
Der volle Inhalt der QuelleDorset, Douglas L., Christopher J. Gilmore, Jose Luis Jorda und Stavros Nicolopoulos. „Direct electron crystallographic determination of zeolite zonal structures“. Ultramicroscopy 107, Nr. 6-7 (Juni 2007): 462–73. http://dx.doi.org/10.1016/j.ultramic.2006.05.013.
Der volle Inhalt der QuelleIlgisonis, V. I., V. P. Lakhin, N. A. Marusov, A. I. Smolyakov und E. A. Sorokina. „Low-frequency zonal flow eigen-structures in tokamak plasmas“. Nuclear Fusion 62, Nr. 6 (30.03.2022): 066002. http://dx.doi.org/10.1088/1741-4326/ac3f4c.
Der volle Inhalt der QuelleSingh, Rameswar, R. Singh, P. Kaw, Ö. D. Gürcan und P. H. Diamond. „Coherent structures in ion temperature gradient turbulence-zonal flow“. Physics of Plasmas 21, Nr. 10 (Oktober 2014): 102306. http://dx.doi.org/10.1063/1.4898207.
Der volle Inhalt der QuelleSANDBERG, INGMAR, und V. P. PAVLENKO. „Zonal flow in toroidal ion temperature gradient mode turbulence“. Journal of Plasma Physics 73, Nr. 4 (August 2007): 565–73. http://dx.doi.org/10.1017/s0022377806004831.
Der volle Inhalt der QuelleGolebiowska, Aleksandra A., und Syam P. Nukavarapu. „Bio-inspired zonal-structured matrices for bone-cartilage interface engineering“. Biofabrication 14, Nr. 2 (25.02.2022): 025016. http://dx.doi.org/10.1088/1758-5090/ac5413.
Der volle Inhalt der QuelleHelfrich, Karl R., und Joseph Pedlosky. „Time-dependent isolated anomalies in zonal flows“. Journal of Fluid Mechanics 251 (Juni 1993): 377–409. http://dx.doi.org/10.1017/s0022112093003453.
Der volle Inhalt der QuelleZhou, Yao, Hongxuan Zhu und I. Y. Dodin. „Solitary zonal structures in subcritical drift waves: a minimum model“. Plasma Physics and Controlled Fusion 62, Nr. 4 (10.03.2020): 045021. http://dx.doi.org/10.1088/1361-6587/ab78f3.
Der volle Inhalt der QuelleDissertationen zum Thema "Zonal structures"
Sama, Juvert Njeck. „The effect of beta on the nonlinear generation of zonal structures in experimentally relevant tokamak plasmas“. Electronic Thesis or Diss., Université de Lorraine, 2024. https://docnum.univ-lorraine.fr/ulprive/DDOC_T_2024_0111_SAMA.pdf.
Der volle Inhalt der QuelleSpatial gradients in temperature and density in tokamak plasmas excite micro-instabilities, which interact non-linearly to form turbulence. Turbulence increases heat and particle transport, reducing the energy confinement time. Understanding turbulence dynamics is important to achieving the conditions for self-sustained combustion in a fusion reactor. Zonal structures (ZS), i.e., the axisymmetric perturbations of a tokamak plasma, are generated by turbulence and play an important role in its self-consistent saturation. Two types of ZS exist: zero-frequency zonal flows (ZFZF) and geodesic acoustic modes (GAM). Recent electrostatic nonlinear studies of turbulence-excited GAMs in Asdex upgrade (AUG) have shown that radially extended GAM structures can be excited by turbulence. The dynamics of GAMs have recently been shown to change when going from low confinement mode (L-mode) to intermediate confinement mode (I-mode) and from I-mode to high confinement mode (H mode). In particular, GAMs are observed experimentally in L-mode and I-mode and are more rarely observed in H-mode. A first linear model explaining this behavior was constructed using the combination of their Landau and continuum damping, which affects GAMs more strongly in H mode. Zonal structures generated by the GAM modes can interact and couple with the zonal structures generated by the turbulence induced by the instabilities, such as the so-called ITG (Ion Temperature Gradient) type modes. Kinetic and particle trapping effects can oppose Landau damping and dominate the zonal flow dynamics generated by ITGs. It is particularly important to understand the dynamics of zonal flows, their excitation mechanism, and their interaction with different plasma instabilities and turbulence. In this thesis, the dynamics of GAMs and ZFZF are studied in different configurations. In Chapter Two, we study the linear dynamics of geodesic acoustic modes in anisotropic plasma. We studied the effects of ion temperature anisotropy that can be introduced by various plasma heating mechanisms, such as neutral beam injection (NBI), ion cyclotron resonance heating (ICRH), and electron cyclotron resonance heating (ECRH). We show that ion temperature anisotropy can significantly modify the damping rate of the geodesic acoustic mode. In the third chapter of this thesis, we developed a global linear theory to study the linear dynamics of plasma waves in tokamak geometry for arbitrary particle distribution functions. We report a generalized expression of the GAM frequency in terms of the distribution function of the ion species and the mode. The generalized mode structure equation of the Alfven/ITG mode structure equation is in the large poloidal mode number unit. In chapter four, the numerical simulation code ORB5 is discussed in detail, pointing out all assumptions and domains of applicability. In chapter five. Our main focus was investigating the impact of zonal flows forced-driven by Alfven modes on linear ITG instabilities. We isolated this effect from self-consistent nonlinear electromagnetic simulations and tested it independently using a set of numerical tools that will be discussed later. We show that zonal flows forced-driven by Alfven modes can significantly mitigate ITG instabilities in an experimentally relevant scenario magnetic geometry. In chapter six, we review the "particle mode" model. We show that the synchronization of particle modes leads to the amplification of the zonal flows, which occurs even when the ions and electrons admit to the same temperature
Miranda, Alan Wanderley Albuquerque. „Evolução estrutural das zonas de cisalhamento dúcteis na porção centro-leste do domínio da Zona Transversal na Província Borborema“. Universidade do Estado do Rio de Janeiro, 2010. http://www.bdtd.uerj.br/tde_busca/arquivo.php?codArquivo=2912.
Der volle Inhalt der QuelleThe studied area is inserted in the Transversal Domain of Borborema Province. The Paleoproterozoic (Riacian) basement encompasses mainly by metaplutonic rocks from Salgadinho and Cabaceiras Complex. These complexes were individualized according to their compositional, textural and/or geochronological datas. The Paleoproterozoic (Orosirian) metasedimentary rocks were interpreted as components of Sertânia Complex. The Estatherian magmatic event is characterized by syenogranitic orthogneisses of the Carnoió-Caturité Suite and metaplutonic rocks of Metanorthositic Boqueirão Complex. The Neoproterozoic lithostratigraphic units are represented by Cryogenian metasedimentary successions of Complex Surubim and by Early-Ediacaran granodioritic and syenogranitic orthogneisses and of the Sumé Complex and Riacho de Santo Antonio orthogneisses, respectively. The Ediacaran granitic magmatism was characterized by the emplacement of Inácio Pereira and Marinho Plutons. The geochronological data (LA-ICPMS) indicate at least of three tectono-magmatic events. The 2042 + 13Ma and 1996 + 11Ma ages from amphibolites of Cabaceiras Complex were interpreted as the crystallization age of the protolith and metamorphism, respectively. The age of 1638 + 13Ma from the syenogranitic hornblende orthogneiss of Carnoió-Caturité Suite was interpreted as the crystallization age of the protolith, marking an Estatherian anorogenic magmatic event. The age of 550 + 3.1Ma acquired in a porphyritic monzogranite of Marinho Pluton is a record of the last magmatic event in the Late-Ediacaran, associated with the final stage of development of the Coxixola Shear Zone. The structural data allowed the individualization of three deformation phases, individualized as D1, D2 and D3. D1 was responsible for generating a S1 foliation, observed only at the hinge of F2 folds. The D2 event is marked by a thrust regime with transport to NNW, observed from asymmetrical shear bands and drag folds in sections parallel to stretching lineation (L2x). Ductile shear zones of different geometry and kinematics had been developed during the D3 phase. The NE-SW Boa Vista, Carnoió and Congo Shear zones exhibit sinistral kinematic in sections parallel to stretching lineation (L3x). The southern limits of these shear zones are connected with Coxixola Shear Zone. This WSW-ENE shear zone with dextral kinematics crosscut the entire studied area, with an average of 300m thickness of mylonitic rocks. The WNW-ESE Inácio Pereira Shear Zone is situated in the eastern portion of the studied area, shows geometric and kinematic characteristics in agreement with an evolution through an oblique-sinistral transpressive regime. The structural evolution of a system of conjugate ductile shear zones is responsible by anastomosed framework exposed in a map view.
Uzawa, Ken. „Study of modulational instability and structure of zonal flows in fusion plasmas“. Kyoto University, 2008. http://hdl.handle.net/2433/135587.
Der volle Inhalt der Quelle0048
新制・課程博士
博士(エネルギー科学)
甲第13952号
エネ博第173号
新制||エネ||40(附属図書館)
UT51-2008-C868
京都大学大学院エネルギー科学研究科エネルギー基礎科学専攻
(主査)教授 岸本 泰明, 教授 近藤 克己, 教授 福山 淳
学位規則第4条第1項該当
Chapman, Jamie. „The marsupial zona pellucida : its structure and glycoconjugate content“. Title page, abstract and contents only, 2003. http://web4.library.adelaide.edu.au/theses/09PH/09phc4661.pdf.
Der volle Inhalt der QuelleKoothan, Thillai. „Structural and functional analysis of zona pellucida“. Thesis, University of Edinburgh, 1994. http://hdl.handle.net/1842/19905.
Der volle Inhalt der QuelleMassucatto, Armando José [UNESP]. „Caracterização estrutural do embasamento do Grupo Araí, na zona externa da faixa Brasília (GO)“. Universidade Estadual Paulista (UNESP), 2003. http://hdl.handle.net/11449/103016.
Der volle Inhalt der QuelleFundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
A área de estudo, objeto desta tese de doutoramento, situa-se na porção nordeste do estado de Goiás, na região de Cavalcante. Nesta região são encontradas rochas do embasamento da Faixa de Dobramentos Brasília, composto por rochas do Complexo Granítico-gnáissico, mega veios de quartzo e Formação Ticunzal. Recobrindo estas rochas são visíveis os metassedimentos do Grupo Araí. As rochas do embasamento da Faixa de Dobramentos Brasília na área de estudo se apresentam fortemente deformadas, mostrando uma alta complexidade estrutural, o que indica que foram submetidas a diferentes eventos deformacionais. Para um melhor entendimento da evolução geólogica da área buscou-se através de diferentes técnicas e ferramentas a separação dos eventos deformacionais que atuaram sobre a região. Os trabalhos realizados levaram a identificação de 5 foliações distintas, sendo que as mesmas foram hierarquizadas e separadas, em função de sua geração, em 3 eventos deformacionais. Para refinar a separação destes eventos deformacionais foram realizadas datações em muscovitas pertencentes às respectivas foliações, utilizando-se o método 40Ar/39Ar. O Evento denominado genericamente de 1, apresenta uma foliação (S1) com direção próxima a EW, mergulho subvertical. Tal foliação é gerada como resposta a uma compressão de direção próxima a NS. As datações realizadas em micas brancas formadas durante este evento, indicam idades mínimas de 1.5 Ga. O Evento 2, decorrente de uma compressão de direção próxima a EW, é responsável pela geração de uma foliação (S2) com direção próxima a NS, que apresenta um mergulho vertical. Associa-se a esta fase uma lineação de estiramento em geral vertical e localmente de baixo ângulo. As datações realizadas apontam para idades mínimas de 1.4 Ga, para micas brancas geradas durante este evento...
The studied area in this PhD thesis is located in the northeast portion of Goias State, near Cavalcante Town. Basement rocks of Brasilia Fold Belt, composed basically by Granitic-Gneiss Complex, mega quartz veinz and the Ticunzal Formation, characterize this area. Overlying these rocks are the Araí Group Metassediments. The basement rocks of Brasilia Fold Belt, in the studied area, are strongly deformed, showing a highly structural complexity, which indicate these rocks were submitted by different deformational events. For a better understanding of geological evolution, different techniques and tools to distinguish the deformational events have been applied. The work done defined the identification of five different foliations, which were ordered and separated in three different deformational events because its generations. To refine its events separation, 40Ar/39Ar dating in muscovites belonging in each foliation has been done. The Event denominated generally by 1 presents an EW direction foliation (S1) with a sub vertical dipping. Such foliation was generated as consequence for an NS direction compression. The dating done in white micas formed during this event, yielded a minimum age of 1.5 Ga. The Event 2, consequence of a close EW direction compression, generated a close NS direction foliation (S2) with vertical dipping. The white micas dating suggest a minimum age of 1.4 Ga for this event. Petrographic analysis indicated rocks that were submitted by the Events 1 and 2, were affected by similar metamorphism conditions, where might have reached temperatures between 450 and 500o C. The mega quartz veins possibly have been generated during the Event 2. Accomplished studies showing that its geometries are conformable with the cinematic aspects found in this event...(Complete abstract click electronic access below)
Risbey, James S. (James Sydney). „An analysis of zonal mean atmospheric angular momentum and high cloud cover : periodicities, time-latitude structure, and cross correlations“. Thesis, Massachusetts Institute of Technology, 1987. http://hdl.handle.net/1721.1/57727.
Der volle Inhalt der QuelleMassucatto, Armando José. „Caracterização estrutural do embasamento do Grupo Araí, na zona externa da faixa Brasília (GO) /“. Rio Claro : [s.n.], 2003. http://hdl.handle.net/11449/103016.
Der volle Inhalt der QuelleBanca: Nilson Francisquini Botelho
Banca: Marco Antonio Fonseca
Banca: Norberto Morales
Banca: Hans Dirk Ebert
Resumo: A área de estudo, objeto desta tese de doutoramento, situa-se na porção nordeste do estado de Goiás, na região de Cavalcante. Nesta região são encontradas rochas do embasamento da Faixa de Dobramentos Brasília, composto por rochas do Complexo Granítico-gnáissico, mega veios de quartzo e Formação Ticunzal. Recobrindo estas rochas são visíveis os metassedimentos do Grupo Araí. As rochas do embasamento da Faixa de Dobramentos Brasília na área de estudo se apresentam fortemente deformadas, mostrando uma alta complexidade estrutural, o que indica que foram submetidas a diferentes eventos deformacionais. Para um melhor entendimento da evolução geólogica da área buscou-se através de diferentes técnicas e ferramentas a separação dos eventos deformacionais que atuaram sobre a região. Os trabalhos realizados levaram a identificação de 5 foliações distintas, sendo que as mesmas foram hierarquizadas e separadas, em função de sua geração, em 3 eventos deformacionais. Para refinar a separação destes eventos deformacionais foram realizadas datações em muscovitas pertencentes às respectivas foliações, utilizando-se o método 40Ar/39Ar. O Evento denominado genericamente de 1, apresenta uma foliação (S1) com direção próxima a EW, mergulho subvertical. Tal foliação é gerada como resposta a uma compressão de direção próxima a NS. As datações realizadas em micas brancas formadas durante este evento, indicam idades mínimas de 1.5 Ga. O Evento 2, decorrente de uma compressão de direção próxima a EW, é responsável pela geração de uma foliação (S2) com direção próxima a NS, que apresenta um mergulho vertical. Associa-se a esta fase uma lineação de estiramento em geral vertical e localmente de baixo ângulo. As datações realizadas apontam para idades mínimas de 1.4 Ga, para micas brancas geradas durante este evento...(Resumo completo, clicar acesso eletrônico abaixo)
Abstract:The studied area in this PhD thesis is located in the northeast portion of Goias State, near Cavalcante Town. Basement rocks of Brasilia Fold Belt, composed basically by Granitic-Gneiss Complex, mega quartz veinz and the Ticunzal Formation, characterize this area. Overlying these rocks are the Araí Group Metassediments. The basement rocks of Brasilia Fold Belt, in the studied area, are strongly deformed, showing a highly structural complexity, which indicate these rocks were submitted by different deformational events. For a better understanding of geological evolution, different techniques and tools to distinguish the deformational events have been applied. The work done defined the identification of five different foliations, which were ordered and separated in three different deformational events because its generations. To refine its events separation, 40Ar/39Ar dating in muscovites belonging in each foliation has been done. The Event denominated generally by "1" presents an EW direction foliation (S1) with a sub vertical dipping. Such foliation was generated as consequence for an NS direction compression. The dating done in white micas formed during this event, yielded a minimum age of 1.5 Ga. The "Event 2", consequence of a close EW direction compression, generated a close NS direction foliation (S2) with vertical dipping. The white micas dating suggest a minimum age of 1.4 Ga for this event. Petrographic analysis indicated rocks that were submitted by the Events "1" and "2", were affected by similar metamorphism conditions, where might have reached temperatures between 450 and 500o C. The mega quartz veins possibly have been generated during the Event "2". Accomplished studies showing that its geometries are conformable with the cinematic aspects found in this event...(Complete abstract click electronic access below)
Doutor
Sartori, Jose Eduardo. „Reativação de falhas : o caso da Zona de Falha de Cássia/MG /“. Rio Claro, 2018. http://hdl.handle.net/11449/152953.
Der volle Inhalt der QuelleBanca: Marcos Aurelio Farias de Oliveira
Banca: George Luiz Luvizotto
Banca: Francisco Sérgio Bernardes Ladeira
Banca: Alessandro Batezelli
Resumo: A Zona de Falha de Cássia corresponde a uma zona de falha transcorrente sinistral oblíqua orientada segundo a direção geral NNW-SSE. A estrutura se desenvolveu em decorrência de movimentações tardias do Cinturão de Cisalhamento Campo do Meio durante o Ciclo Orogênico Brasiliano. A Zona de Falha de Cássia está registrada através de uma faixa de rochas deformadas de largura variável entre 0,5 a 3,0 km, composta por rochas miloníticas, caracterizadas por deformação dúctil-rúptil em condições metamórficas de fácies xisto verde, zona da clorita. A descontinuidade foi reativada como uma zona de falha normal, com bloco baixo a sudoeste (reativação geométrica) durante o Neocretáceo, correlacionada com o Soerguimento do Alto Paranaíba. A reativação tectônica foi marcada por intensa brechação, cataclase e a formação de dois conjuntos de falhas normais com arranjo em blocos escalonados progressivamente rebaixados para oeste. As feições microestruturais e reações de alteração constatadas, juntamente com a ocorrência de pseudotaquilito permitiram inferir que estas rochas de falha foram desenvolvidas em profundidades inferiores a 11 km, com temperaturas menores que 300°C, provavelmente associadas a sismos. Uma segunda etapa de reativação está registrada através da formação de depósitos sedimentares argilosos e arenosos quaternários, respectivamente nas regiões de Cássia-Pratápolis e Desemboque. Tratam-se de depósitos correlativos de falha relacionados à movimentação da Zona de Falha de Cás... (Resumo completo, clicar acesso eletrônico abaixo)
Abstract: The Cássia Fault Zone corresponds to an oblique sinistral transcurrent fault zone oriented in the general direction NNW-SSE. The structure developed as a result of late movements of the Campo do Meio Shear Belt during the Brasilian Orogenic Cycle. The Cássia Fault Zone is recorded through a range of deformed rocks varying in width ranging from 0.5 to 3.0 km, composed of milonitic rocks, characterized by ductile deformation in metamorphic conditions of green schist facies (chlorite zone). The discontinuity was reactivated as a normal fault zone, with a lower block to the southwest (geometric reactivation) during the Neocretaceous, correlated with the Soerguimento do Alto Paranaíba. The tectonic reactivation was marked by intense breccia, cataclase and the formation of two sets of normal faults with arrangement in stepped blocks progressively lowered to the west. The microstructural features and alteration reactions observed together with the occurrence of pseudotaquilite allowed us to infer that these fault rocks were developed at depths lower than 11 km, with temperatures lower than 300 ° C, probably associated with earthquakes. A second stage of reactivation is recorded through the formation of quaternary sedimentary deposits in the regions of Cássia-Pratápolis and Desemboque. These are correlative fault deposits related to the movement of the Cássia Fault Zone as a normal fault zone, with a lower block to the southwest, forming a kinematic reactivation. Locally, the sedimen... (Complete abstract click electronic access below)
Doutor
Sartori, José Eduardo [UNESP}. „Reativação de falhas: o caso da Zona de Falha de Cássia/MG“. Universidade Estadual Paulista (UNESP), 2018. http://hdl.handle.net/11449/152953.
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
A Zona de Falha de Cássia corresponde a uma zona de falha transcorrente sinistral oblíqua orientada segundo a direção geral NNW-SSE. A estrutura se desenvolveu em decorrência de movimentações tardias do Cinturão de Cisalhamento Campo do Meio durante o Ciclo Orogênico Brasiliano. A Zona de Falha de Cássia está registrada através de uma faixa de rochas deformadas de largura variável entre 0,5 a 3,0 km, composta por rochas miloníticas, caracterizadas por deformação dúctil-rúptil em condições metamórficas de fácies xisto verde, zona da clorita. A descontinuidade foi reativada como uma zona de falha normal, com bloco baixo a sudoeste (reativação geométrica) durante o Neocretáceo, correlacionada com o Soerguimento do Alto Paranaíba. A reativação tectônica foi marcada por intensa brechação, cataclase e a formação de dois conjuntos de falhas normais com arranjo em blocos escalonados progressivamente rebaixados para oeste. As feições microestruturais e reações de alteração constatadas, juntamente com a ocorrência de pseudotaquilito permitiram inferir que estas rochas de falha foram desenvolvidas em profundidades inferiores a 11 km, com temperaturas menores que 300°C, provavelmente associadas a sismos. Uma segunda etapa de reativação está registrada através da formação de depósitos sedimentares argilosos e arenosos quaternários, respectivamente nas regiões de Cássia-Pratápolis e Desemboque. Tratam-se de depósitos correlativos de falha relacionados à movimentação da Zona de Falha de Cássia como uma zona de falha normal, com bloco baixo a sudoeste, configurando uma reativação cinemática. Localmente os sedimentos exibem feições de deformação rúptil como falhas, fraturas e zonas brechadas, indicando atividade neotectônica na região. Este rico acervo de produtos geológicos transforma a Zona de Falha de Cássia em modelo para estudos de reativação tectônica em ambiente intraplaca e evolução de longo termo.
The Cássia Fault Zone corresponds to an oblique sinistral transcurrent fault zone oriented in the general direction NNW-SSE. The structure developed as a result of late movements of the Campo do Meio Shear Belt during the Brasilian Orogenic Cycle. The Cássia Fault Zone is recorded through a range of deformed rocks varying in width ranging from 0.5 to 3.0 km, composed of milonitic rocks, characterized by ductile deformation in metamorphic conditions of green schist facies (chlorite zone). The discontinuity was reactivated as a normal fault zone, with a lower block to the southwest (geometric reactivation) during the Neocretaceous, correlated with the Soerguimento do Alto Paranaíba. The tectonic reactivation was marked by intense breccia, cataclase and the formation of two sets of normal faults with arrangement in stepped blocks progressively lowered to the west. The microstructural features and alteration reactions observed together with the occurrence of pseudotaquilite allowed us to infer that these fault rocks were developed at depths lower than 11 km, with temperatures lower than 300 ° C, probably associated with earthquakes. A second stage of reactivation is recorded through the formation of quaternary sedimentary deposits in the regions of Cássia-Pratápolis and Desemboque. These are correlative fault deposits related to the movement of the Cássia Fault Zone as a normal fault zone, with a lower block to the southwest, forming a kinematic reactivation. Locally, the sediments exhibit features of deformation such as faults, fractures and breccias, indicating neotectonic activity in the region. This rich collection of geological products transforms the Cássia Fault Zone into a model for studies of tectonic reactivation in intraplate environment and long term evolution.
CNPq: 165801/2014-0
Bücher zum Thema "Zonal structures"
Pliego, Susana Casarín. Pátzcuaro: Zona de monumentos históricos. México, D.F: Instituto Nacional de Antropología e Historia, 2014.
Den vollen Inhalt der Quelle findenToporek, Isaac. Cuautla: Zona de monumentos históricos. México, D.F: Instituto Nacional de Antropología e Historia, 2013.
Den vollen Inhalt der Quelle findenVajzović, Dervo. Stanovništvo Mostara 1879-1991: Demogeografska studia : općina, grad, gradska regija, prigradska zona. Mostar: Dervo Vajzović, 2005.
Den vollen Inhalt der Quelle findenI, Romanova E., und Kupt͡s︡ov A. G, Hrsg. Podzemnai͡a︡ okhrannai͡a︡ zona istoricheskoĭ territorii Ri͡a︡zanskogo Kremli͡a︡. Ri͡a︡zanʹ: Stilʹ, 1995.
Den vollen Inhalt der Quelle findenPliego, Susana Casarín, und Marcela Landgrave. Parras de la Fuente: Zona de monumentos históricos. México, Ciudad de México: Instituto Nacional de Antropología e Historia, 2016.
Den vollen Inhalt der Quelle findenSarà, Guido. Costruzioni in zona sismica: Imparare a progettare dai terremoti. [Palermo, Italy]: D. Flaccovio, 2014.
Den vollen Inhalt der Quelle findenErmini, Letizia Pani. Il Battistero e la zona episcopale di Pisa nell'Alto Medioevo. Ospedaletto, Pisa: Pacini, 1985.
Den vollen Inhalt der Quelle findenNunes, Denise Vianna. Edifícios residenciais de Firmino Saldanha: Morar moderno na Zona Sul do Rio de Janeiro. Rio de Janeiro: UFRJ, 2009.
Den vollen Inhalt der Quelle findenAyuntamiento, Salamanca (Spain), und Instituto del Territorio y Urbanismo (Spain), Hrsg. Salamanca: Plan especial de protección y reforma interior del recinto universitario y zona histórico-artística. Madrid: Centro de Publicaciones, MOPU, 1987.
Den vollen Inhalt der Quelle findenColoquio de Historia y Medio Físico. (1st 1989 Almería, Spain). El agua en zonas áridas, arqueología e historia: Actas del I Coloquio de Historia y Medio Físico, Almería, 14-15-16 de diciembre de 1989. [Almería]: Instituto de Estudios Almerienses de la Diputación de Almería, 1989.
Den vollen Inhalt der Quelle findenBuchteile zum Thema "Zonal structures"
Shagalov, S. V., und G. V. Rybushkina. „Nonlinear Development of Unstable Modes and Formation of Coherent Vortex Structures in Weakly Supercritical Zonal Shear Flows“. In Progress in Turbulence V, 189–94. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-01860-7_30.
Der volle Inhalt der QuellePrasad, Sarvamangala V., Gautam Kaul und Bonnie S. Dunbar. „Structure and Function of Mammalian Zonae Pellucidae“. In Introduction to Mammalian Reproduction, 203–25. Boston, MA: Springer US, 2003. http://dx.doi.org/10.1007/978-1-4615-0273-9_12.
Der volle Inhalt der QuelleLiu, Luo-Qin. „Far-Field Asymptotics and Zonal Structure of Theoretical Flow Models“. In Unified Theoretical Foundations of Lift and Drag in Viscous and Compressible External Flows, 29–58. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-6223-0_2.
Der volle Inhalt der QuelleSimpson, John I., Johannes Van der Steen und Joep Tan. „Eye Movements and the Zonal Structure of the Rabbit Flocculus“. In The Cerebellum Revisited, 255–66. New York, NY: Springer US, 1992. http://dx.doi.org/10.1007/978-1-4612-2840-0_13.
Der volle Inhalt der QuellePhillips, David M. „Structure and Function of the Zona Pellucida“. In Ultrastructure of the Ovary, 63–72. Boston, MA: Springer US, 1991. http://dx.doi.org/10.1007/978-1-4615-3944-5_4.
Der volle Inhalt der QuelleDunbar, Bonnie S., S. V. Prasad und T. M. Timmons. „Comparative Structure and Function of Mammalian Zonae Pellucidae“. In A Comparative Overview of Mammalian Fertilization, 97–114. Boston, MA: Springer US, 1991. http://dx.doi.org/10.1007/978-1-4757-8982-9_6.
Der volle Inhalt der QuelleScott, R. K. „The structure of zonal jets in shallow water turbulence on the sphere“. In IUTAM Symposium on Turbulence in the Atmosphere and Oceans, 243–52. Dordrecht: Springer Netherlands, 2010. http://dx.doi.org/10.1007/978-94-007-0360-5_20.
Der volle Inhalt der QuelleSiddiqui, Arif, und Catherine A. Wilson. „Serotoninergic Neurones in the Zona Incerta Exerts Inhibitory Control on Gonadotrophin Release via 5-HT2A/2C Receptors“. In Protein Structure — Function Relationship, 213–21. Boston, MA: Springer US, 1996. http://dx.doi.org/10.1007/978-1-4613-0359-6_22.
Der volle Inhalt der QuelleFung, J. C. H., J. C. R. Hunt, R. J. Perkins, A. A. Wray und D. Stretch. „Defining the Zonal Structure of Turbulence Using the Pressure and Invariants of the Deformation Tensor“. In Advances in Turbulence 3, 395–404. Berlin, Heidelberg: Springer Berlin Heidelberg, 1991. http://dx.doi.org/10.1007/978-3-642-84399-0_43.
Der volle Inhalt der QuelleBakas, Nikolaos A., und Petros J. Ioannou. „Emergence of Nonzonal Coherent Structures“. In Zonal Jets, 419–34. Cambridge University Press, 2019. http://dx.doi.org/10.1017/9781107358225.027.
Der volle Inhalt der QuelleKonferenzberichte zum Thema "Zonal structures"
Jiaying, Wang, Lu Chunguang, Deng Lan und Xie Danyu. „Research on Intelligent Interactive Regulation Framework Based on Hierarchical and Zonal Structure Supporting Large-scale New Adjustable Load Resources“. In 2024 China International Conference on Electricity Distribution (CICED), 793–801. IEEE, 2024. http://dx.doi.org/10.1109/ciced63421.2024.10753935.
Der volle Inhalt der QuelleJovanović, D., P. K. Shukla, Bengt Eliasson und Padma K. Shukla. „Structures and Zonal Flows in Magnetized Plasmas“. In NEW FRONTIERS IN ADVANCED PLASMA PHYSICS. AIP, 2010. http://dx.doi.org/10.1063/1.3533182.
Der volle Inhalt der QuelleDEWAR, ROBERT L., und R. F. ABDULLATIF. „ZONAL FLOW GENERATION BY MODULATIONAL INSTABILITY“. In Proceedings of the COSNet/CSIRO Workshop on Turbulence and Coherent Structures in Fluids, Plasmas and Nonlinear Media. WORLD SCIENTIFIC, 2007. http://dx.doi.org/10.1142/9789812771025_0017.
Der volle Inhalt der QuelleRotaru, Vasile K., Igor V. Dementiev, Oleg Y. Korshak, Sevastian Neamtsu, Stephan V. Robu, Hossin A. Abdeldayem, Igor V. Ciapurin und Nickolai V. Kukhtarev. „Photothermoplastic films as recorders in observation systems of zonal structures“. In Defense and Security, herausgegeben von Robert D. Habbit, Jr. und Peter Tchoryk, Jr. SPIE, 2004. http://dx.doi.org/10.1117/12.543759.
Der volle Inhalt der QuelleKrommes, John A., A. Sen, S. Sharma und P. N. Guzdar. „Advances and Current Challenges in the Theory of Zonal-Flow Generation“. In INTERNATIONAL SYMPOSIUM ON WAVES, COHERENT STRUCTURES AND TURBULENCE IN PLASMAS. AIP, 2010. http://dx.doi.org/10.1063/1.3526158.
Der volle Inhalt der QuelleChen, Y. Lisa, und Jin Wen. „Application of zonal model on indoor air sensor network design“. In The 14th International Symposium on: Smart Structures and Materials & Nondestructive Evaluation and Health Monitoring, herausgegeben von Masayoshi Tomizuka, Chung-Bang Yun und Victor Giurgiutiu. SPIE, 2007. http://dx.doi.org/10.1117/12.716356.
Der volle Inhalt der QuelleJiang, Wei-wu, Xiao-wei Gao und Bing-bing Xu. „Zonal Free Element Method And Its Application In Functionally Graded Pieozelectric Structures“. In 2020 15th Symposium on Piezoelectrcity, Acoustic Waves and Device Applications (SPAWDA). IEEE, 2021. http://dx.doi.org/10.1109/spawda51471.2021.9445482.
Der volle Inhalt der QuelleShivamoggi, Bhimsen K. „Geophysical localized structures induced by non-uniform β and/or zonal shear flow“. In The workshop on two-dimensional turbulence in plasmas and fluids. AIP, 1997. http://dx.doi.org/10.1063/1.54434.
Der volle Inhalt der QuelleBezuglov, Dmitry A., Marina Yu Zvezdina, Larissa V. Cherckesova, George N. Shalamov, Nikolay N. Prokopenko, Julia A. Shokova, Gennady P. Sinyavsky, Boris A. Akishin und Vitaly M. Porksheyan. „Possibilities of nonlinear parametric zonal systems application on the base of passive magnetophotonic structures at low temperatures“. In 2017 IEEE East-West Design & Test Symposium (EWDTS). IEEE, 2017. http://dx.doi.org/10.1109/ewdts.2017.8110158.
Der volle Inhalt der QuelleSotnikov, V. I., O. G. Onishchenko, E. Yasin, J. Kindel und J. N. Leboeuf. „Large-scale zonal structures and short scale spectra generated by drift flute waves in high-beta hed plasmas“. In 2009 IEEE 36th International Conference on Plasma Science (ICOPS). IEEE, 2009. http://dx.doi.org/10.1109/plasma.2009.5227485.
Der volle Inhalt der QuelleBerichte der Organisationen zum Thema "Zonal structures"
Real Fernández, Elena. ¿PUEDE HABER 5 FASES DE DEFORMACIÓN HERCÍNICA EN LA ZONA DE VALDEMORILLO (MADRID)? Ilustre Colegio Oficial de Geólogos, Oktober 2020. http://dx.doi.org/10.21028/erf.2020.10.27.
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