10 resultados para Gadamerian hermeneutic phenomenology

em ArchiMeD - Elektronische Publikationen der Universität Mainz - Alemanha


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Habitusbildung im Studium der Sozialpädagogik. Eine explorative Studie zur Strukturtypik studentischer Professionalisierungsprozesse Die qualitativ-empirische Studie untersucht die als studentischen und pädagogischen Habitus bezeichnete pädagogische Professionalisierung im Studium. Das zugrunde gelegte strukturtheoretische Modell einer professionalisierten sozialpädagogischen Praxis ist eine widersprüchliche Einheit von Theorie- und Fallverstehen. Schütze (1996) analysiert das im Kern paradoxale Verhältnis zwischen Professionellen und Klientel, die widersprüchliche Handlungslogik der Profession und die Konsequenzen ihrer herrschaftlicher Kontexte. In Oevermanns Skizze einer revidierten Theorie professionalisierten Handelns (1996) werden wissenschaftliches Verstehen und hermeneutisches Fallverstehen zur Grundlage des professionalisierten Handelns. Von besonderer Bedeutung ist Oevermanns Konzeption der stellvertretenden Deutung, der Deutung des latenten Sinns einer Interaktion, einer Handlung, einer latenten Sinnstrukur. Aus objektiv-hermeneutischer Sicht sind die Handlungsspielräume einer je konkreten Lebenspraxis durch Regeln gesetzt, bereits die Welt sozialer Regeln bestimmt Möglichkeiten und Folgen einer Handlung, nicht erst die Lebenspraxis. Die Kontrastierung von vier Fallrekonstruktionen mündet in der Formulierung zweier Strukturtypen. Beim Strukturtyp 1, „Scheitern der Habitusformation durch Verweigerung von Emergenz“, wird eine auf ein, maximal zwei sozialpädagogische Handlungsfelder gerichtete Berufskonzeption ausgeformt. Neue Inhalte, die sich nicht widerspruchsfrei in dieses minimalistische Konzept sozialer Praxis integrieren lassen, werden abgewehrt. Das Strukturpotential, das in dieser krisenhaften Übergangssituation angesprochen wird mit dem Anspruch, neue perzeptions- und handlungsleitende Sinnstrukturen zu bilden, stagniert in biografisch bewährten Bearbeitungsstrategien. Für die Fallstrukturgesetzlichkeit des Strukturtyps 2, „Krisenbearbeitung und Transformation biografietypischer Strukturen“, ist ein hohes Potential, in einem Prozess der Emergenz Krisen durch neue Handlungs- und Sinnstrukturen zu lösen, signifikant. Die gelingende Habitusformation vollzieht sich dort, wo diese emergenten Strukturen in die Vermitteltheit einer professionalisierten Routine überführt werden. Die Rückbindung der Strukturtypen an die Studienmodelle des „wissenschaftlich gebildeten Praktikers“ und des fallrekonstruktiven Modells fundiert die These, dass der durch die Einsozialisation in ein hermeneutisches Fallverstehen eröffnete Bildungsprozess vertiefte Kenntnisse um Lebensgesetzlichkeiten, Regelkenntnisse und eine entmystifizierte Haltung zur Theorie als einer „verwissenschaftlichten Rationalität“ vermittelt.

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In dieser Dissertation Die Universalität der Hermeneutik wurde die folgenden zwei Fragen behandelt: Erstens: kann die Psychoanalyse - konkreter gesagt, die Übertragungssituation in dem szenischen Verstehen - eine Ausnahme von der Universalität der Hermeneutik darstellen? Zweitens: ist kritische Reflexion überhaupt moglich?, und konnen die Universalität der Hermeneutik und die kritische Reflexion miteinander in Übereinstimmung gebracht werden? Durch das szenische Verstehen erlautert Habermas den Vorgang, wie die Umgangssprache des Patienten von dem Analytiker analysiert wird. Zumal in der Übertragungssituation ist der Gegenstand des Symptoms des Patienten nichts anderes als der Analytiker selbst, und demzufolge kann der Analytiker selbst dann an dem Symptom seines Patienten teilnehmen. Durch diese Teilnahme kann er die Bedeutung des Symptoms seines Patienten genau erfassen. Aber wenn der Analytiker nicht das Unbewusste, das sein Patient ihm offenbart, umgangssprachlich akzeptiert hätte, oder anders gesagt, wenn das Unbewusste des Patienten sich dem Analytiker nicht als "ein Gesagtes" gezeigt hätte, hätte der Analytiker auf keinem Fall daraus etwas erfassen können. Infolgedessen kann die Psychoanalyse nicht das Gegenbeispiel fur die Universalität der Hermeneutik werden. Damit die kritische Reflexion möglich wäre, müssten vor allem unser Bewusstsein und die Sprache voneinander getrennt werden. Deswegen wurde in dieser Arbeit behauptet, dass sie - obwohl es in der Tat selbstverstandlich unmöglich ist - aber sehr wohl rein begrifflich gesehen voneinander getrennt und unterschieden werden können. In diesem Fall kann das Einflussverhältnis zwischen der Sprache und den außersprachlichen Faktoren in das Einflussverhältnis zwischen der "Arbeit und Herrschaft" und der Sprache und unserem Bewusstsein, unterteilt und differenziert werden: Arbeit und Herrschaft übt auf die Sprache Einfluss aus, und die Sprache übt auf unser Bewusstsein Einfluss aus. Und mit der Tatsache, dass die Praxis des Verstehens verändert wird, kann man beweisen, dass unser Bewusstsein auf die Arbeit und Herrschaft Einfluss ausüben kann. Und das bedeutet, dass unser Bewusstsein, obwohl es nur mittelbar ist, auf jeden Fall auch auf die Sprache Einfluss ausüben kann. Infolgedessen, wenn die Universalität der Hermeneutik gültig ist, kann man auch sagen, dass auf dieselbe Weise, die kritische Reflexion Habermas´ möglich ist. Und diese Einflussverhältnisse sind aber in dauernder Zirkulationsbewegung. Und diese Zirkulationsbewegung an sich ist das Wesen des Menschen, und daraus bildet sich seine Geschichte.

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In this thesis, we study the phenomenology of selected observables in the context of the Randall-Sundrum scenario of a compactified warpedrnextra dimension. Gauge and matter fields are assumed to live in the whole five-dimensional space-time, while the Higgs sector is rnlocalized on the infrared boundary. An effective four-dimensional description is obtained via Kaluza-Klein decomposition of the five dimensionalrnquantum fields. The symmetry breaking effects due to the Higgs sector are treated exactly, and the decomposition of the theory is performedrnin a covariant way. We develop a formalism, which allows for a straight-forward generalization to scenarios with an extended gauge group comparedrnto the Standard Model of elementary particle physics. As an application, we study the so-called custodial Randall-Sundrum model and compare the resultsrnto that of the original formulation. rnWe present predictions for electroweak precision observables, the Higgs production cross section at the LHC, the forward-backward asymmetryrnin top-antitop production at the Tevatron, as well as the width difference, the CP-violating phase, and the semileptonic CP asymmetry in B_s decays.

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In this thesis, the phenomenology of the Randall-Sundrum setup is investigated. In this context models with and without an enlarged SU(2)_L x SU(2)_R x U(1)_X x P_{LR} gauge symmetry, which removes corrections to the T parameter and to the Z b_L \bar b_L coupling, are compared with each other. The Kaluza-Klein decomposition is formulated within the mass basis, which allows for a clear understanding of various model-specific features. A complete discussion of tree-level flavor-changing effects is presented. Exact expressions for five dimensional propagators are derived, including Yukawa interactions that mediate flavor-off-diagonal transitions. The symmetry that reduces the corrections to the left-handed Z b \bar b coupling is analyzed in detail. In the literature, Randall-Sundrum models have been used to address the measured anomaly in the t \bar t forward-backward asymmetry. However, it will be shown that this is not possible within a natural approach to flavor. The rare decays t \to cZ and t \to ch are investigated, where in particular the latter could be observed at the LHC. A calculation of \Gamma_{12}^{B_s} in the presence of new physics is presented. It is shown that the Randall-Sundrum setup allows for an improved agreement with measurements of A_{SL}^s, S_{\psi\phi}, and \Delta\Gamma_s. For the first time, a complete one-loop calculation of all relevant Higgs-boson production and decay channels in the custodial Randall-Sundrum setup is performed, revealing a sensitivity to large new-physics scales at the LHC.

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The aims of the dissertation are to find the right description of the structure of perceptual experience and to explore the ways in which the structure of the body might serve to explain it. In the first two parts, I articulate and defend the claim that perceptual experience seems direct and the claim that its objects seem real. I defend these claims as integral parts of a coherent metaphysically neutral conception of perceptual experience. Sense-datum theorists, certain influential perceptual psychologists, and early modern philosophers (most notably Berkeley) all disputed the claim that perceptual experience seems direct. In Part I, I argue that the grounds on which they did so were poor. The aim is then, in Part II, to give a proper appreciation of the distinctive intentionality of perceptual experience whilst remaining metaphysically neutral. I do so by drawing on the early work of Edmund Husserl, providing a characterisation of the perceptual experience of objects as real, qua mind-independent particulars. In Part III, I explore two possible explanations of the structure characterising the intentionality of perceptual experience, both of which accord a distinctive explanatory role to the body. On one account, perceptual experience is structured by an implicit pre-reflective consciousness of oneself as a body engaged in perceptual activity. An alternative account makes no appeal to the metaphysically laden concept of a bodily self. It seeks to explain the structure of perceptual experience by appeal to anticipation of the structural constraints of the body. I develop this alternative by highlighting the conceptual and empirical basis for the idea that a first-order structural affordance relation holds between a bodily agent and certain properties of its body. I then close with a discussion of the shared background assumptions that ought to inform disputes over whether the body itself (in addition to its representation) ought to serve as an explanans in such an account.

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This thesis focuses on the design and characterization of a novel, artificial minimal model membrane system with chosen physical parameters to mimic a nanoparticle uptake process driven exclusively by adhesion and softness of the bilayer. The realization is based on polymersomes composed of poly(dimethylsiloxane)-b-poly(2-methyloxazoline) (PMDS-b-PMOXA) and nanoscopic colloidal particles (polystyrene, silica), and the utilization of powerful characterization techniques. rnPDMS-b-PMOXA polymersomes with a radius, Rh ~100 nm, a size polydispersity, PD = 1.1 and a membrane thickness, h = 16 nm, were prepared using the film rehydratation method. Due to the suitable mechanical properties (Young’s modulus of ~17 MPa and a bending modulus of ~7⋅10-8 J) along with the long-term stability and the modifiability, these kind of polymersomes can be used as model membranes to study physical and physicochemical aspects of transmembrane transport of nanoparticles. A combination of photon (PCS) and fluorescence (FCS) correlation spectroscopies optimizes species selectivity, necessary for a unique internalization study encompassing two main efforts. rnFor the proof of concepts, the first effort focused on the interaction of nanoparticles (Rh NP SiO2 = 14 nm, Rh NP PS = 16 nm; cNP = 0.1 gL-1) and polymersomes (Rh P = 112 nm; cP = 0.045 gL-1) with fixed size and concentration. Identification of a modified form factor of the polymersome entities, selectively seen in the PCS experiment, enabled a precise monitor and quantitative description of the incorporation process. Combining PCS and FCS led to the estimation of the incorporated particles per polymersome (about 8 in the examined system) and the development of an appropriate methodology for the kinetics and dynamics of the internalization process. rnThe second effort aimed at the establishment of the necessary phenomenology to facilitate comparison with theories. The size and concentration of the nanoparticles were chosen as the most important system variables (Rh NP = 14 - 57 nm; cNP = 0.05 - 0.2 gL-1). It was revealed that the incorporation process could be controlled to a significant extent by changing the nanoparticles size and concentration. Average number of 7 up to 11 NPs with Rh NP = 14 nm and 3 up to 6 NPs with Rh NP = 25 nm can be internalized into the present polymersomes by changing initial nanoparticles concentration in the range 0.1- 0.2 gL-1. Rapid internalization of the particles by polymersomes is observed only above a critical threshold particles concentration, dependent on the nanoparticle size. rnWith regard possible pathways for the particle uptake, cryogenic transmission electron microscopy (cryo-TEM) has revealed two different incorporation mechanisms depending on the size of the involved nanoparticles: cooperative incorporation of nanoparticles groups or single nanoparticles incorporation. Conditions for nanoparticle uptake and controlled filling of polymersomes were presented. rnIn the framework of this thesis, the experimental observation of transmembrane transport of spherical PS and SiO2 NPs into polymersomes via an internalization process was reported and examined quantitatively for the first time. rnIn a summary the work performed in frames of this thesis might have significant impact on cell model systems’ development and thus improved understanding of transmembrane transport processes. The present experimental findings help create the missing phenomenology necessary for a detailed understanding of a phenomenon with great relevance in transmembrane transport. The fact that transmembrane transport of nanoparticles can be performed by artificial model system without any additional stimuli has a fundamental impact on the understanding, not only of the nanoparticle invagination process but also of the interaction of nanoparticles with biological as well as polymeric membranes. rn

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In this thesis we investigate the phenomenology of supersymmetric particles at hadron colliders beyond next-to-leading order (NLO) in perturbation theory. We discuss the foundations of Soft-Collinear Effective Theory (SCET) and, in particular, we explicitly construct the SCET Lagrangian for QCD. As an example, we discuss factorization and resummation for the Drell-Yan process in SCET. We use techniques from SCET to improve existing calculations of the production cross sections for slepton-pair production and top-squark-pair production at hadron colliders. As a first application, we implement soft-gluon resummation at next-to-next-to-next-to-leading logarithmic order (NNNLL) for slepton-pair production in the minimal supersymmetric extension of the Standard Model (MSSM). This approach resums large logarithmic corrections arising from the dynamical enhancement of the partonic threshold region caused by steeply falling parton luminosities. We evaluate the resummed invariant-mass distribution and total cross section for slepton-pair production at the Tevatron and LHC and we match these results, in the threshold region, onto NLO fixed-order calculations. As a second application we present the most precise predictions available for top-squark-pair production total cross sections at the LHC. These results are based on approximate NNLO formulas in fixed-order perturbation theory, which completely determine the coefficients multiplying the singular plus distributions. The analysis of the threshold region is carried out in pair invariant mass (PIM) kinematics and in single-particle inclusive (1PI) kinematics. We then match our results in the threshold region onto the exact fixed-order NLO results and perform a detailed numerical analysis of the total cross section.

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The lattice formulation of Quantum ChromoDynamics (QCD) has become a reliable tool providing an ab initio calculation of low-energy quantities. Despite numerous successes, systematic uncertainties, such as discretisation effects, finite-size effects, and contaminations from excited states, are inherent in any lattice calculation. Simulations with controlled systematic uncertainties and close to the physical pion mass have become state-of-the-art. We present such a calculation for various hadronic matrix elements using non-perturbatively O(a)-improved Wilson fermions with two dynamical light quark flavours. The main topics covered in this thesis are the axial charge of the nucleon, the electro-magnetic form factors of the nucleon, and the leading hadronic contributions to the anomalous magnetic moment of the muon. Lattice simulations typically tend to underestimate the axial charge of the nucleon by 5 − 10%. We show that including excited state contaminations using the summed operator insertion method leads to agreement with the experimentally determined value. Further studies of systematic uncertainties reveal only small discretisation effects. For the electro-magnetic form factors of the nucleon, we see a similar contamination from excited states as for the axial charge. The electro-magnetic radii, extracted from a dipole fit to the momentum dependence of the form factors, show no indication of finite-size or cutoff effects. If we include excited states using the summed operator insertion method, we achieve better agreement with the radii from phenomenology. The anomalous magnetic moment of the muon can be measured and predicted to very high precision. The theoretical prediction of the anomalous magnetic moment receives contribution from strong, weak, and electro-magnetic interactions, where the hadronic contributions dominate the uncertainties. A persistent 3σ tension between the experimental determination and the theoretical calculation is found, which is considered to be an indication for physics beyond the Standard Model. We present a calculation of the connected part of the hadronic vacuum polarisation using lattice QCD. Partially twisted boundary conditions lead to a significant improvement of the vacuum polarisation in the region of small momentum transfer, which is crucial in the extraction of the hadronic vacuum polarisation.

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In this thesis, we develop high precision tools for the simulation of slepton pair production processes at hadron colliders and apply them to phenomenological studies at the LHC. Our approach is based on the POWHEG method for the matching of next-to-leading order results in perturbation theory to parton showers. We calculate matrix elements for slepton pair production and for the production of a slepton pair in association with a jet perturbatively at next-to-leading order in supersymmetric quantum chromodynamics. Both processes are subsequently implemented in the POWHEG BOX, a publicly available software tool that contains general parts of the POWHEG matching scheme. We investigate phenomenological consequences of our calculations in several setups that respect experimental exclusion limits for supersymmetric particles and provide precise predictions for slepton signatures at the LHC. The inclusion of QCD emissions in the partonic matrix elements allows for an accurate description of hard jets. Interfacing our codes to the multi-purpose Monte-Carlo event generator PYTHIA, we simulate parton showers and slepton decays in fully exclusive events. Advanced kinematical variables and specific search strategies are examined as means for slepton discovery in experimentally challenging setups.

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‘Intangible and tangible heritage – a topology of culture in contexts of faith’ presents a conceptual framework which could enable heritage professionals to approach cul-tural heritage in a more holistic understanding. My work emphasizes opportunities for a re-combination – in conceptual and practical terms – of two recently divided heritage typologies: the so-called ‘intangible’ and ‘tangible’ heritage. In arguing that the above division cannot be maintained when observing the dynamic construction and re-affirmation processes of heritage and identity, and further, that this division is a risk to the preservation of the heritage of humankind, I will emphasize that it is important to halt and redirect the progressing divergence of the two fields. This is particularly necessary in the context of UNESCO, which is the driving force behind this conceptual separation. rnTo achieve a conceptual recombination I propose to approach heritage by means of topologies instead of typologies. In topological analysis the researcher’s focus shifts from heritage expressions towards ideas or concepts of heritage, which are defined as logos localised in place, topos, and are proposed to be analysed by means of semiotic phenomenology. Finally, I describe the findings of a topological analysis conducted for a particular heritage concept: the Umayyad Mosque in Damascus.