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Der Verfasser beschäftigt sich mit der Frage des Glaubensübertritts in einem Asylverfahren. Dabei nimmt er Zeitpunkt, Art und Umstände des Religionswechsels in den Blick. Ferner untersucht er, wie die sogenannte Konversion von den zuständigen Behörden und Gerichten zu behandeln und zu bewerten ist. Einführend gibt er einen Überblick zum völkerrechtlichen Schutz der Religions- und Weltanschauungsfreiheit sowie typischen Gefährdungslagen. Überdies befasst er sich mit den Rechtsgrundlagen des Asyl- und Flüchtlingsschutzrechts und stellt Verbindungen zum Flucht- und Verfolgungsgrund der Religion her.
Schwerpunkt bildet die Untersuchung der Verfahrensstadien, in denen die Konversion relevant wird. Dabei berücksichtigt der Verfasser die nationale und europäische Rechtsprechung. Von besonderer Bedeutung sind die Ausführungen zum Zusammenspiel von staatlichen Ermittlungspflichten und Mitwirkungsgeboten von Asylantragstellenden, wobei den Besonderheiten des grund- und menschenrechtlichen Mehrebenensystems Rechnung getragen wird.
Zentral sind ferner die Ausführungen zum Umgang mit Taufurkunden und sonstigen Bescheinigungen über die religiöse Überzeugung. Besonderes Gewicht liegt auf der verfassungsrechtlichen Stellung der Religionsgemeinschaften und der Frage, ob die Entscheidung einer Religionsgemeinschaft, ein neues Mitglied aufzunehmen, die Behörde im Asylverfahren bindet. Diesem Problem widmet sich der Verfasser unter Heranziehung der relevanten Literaturstimmen und einschlägigen Rechtsprechung.
Der rechtswissenschaftliche Beitrag bietet den beteiligten Akteuren nicht nur eine Einführung in das Themengebiet des Glaubensübertritts im Asylverfahren, sondern gibt den Lesenden auch eine praxistaugliche Handlungsunterstützung rund um die wichtigsten Fragen einer Konversion im Asylverfahren an die Hand. Praktische Bezüge entstehen beispielsweise dadurch, dass wichtige Impulse und Empfehlungen für eine gleichermaßen moderne, rechtsstaatliche und grundrechtsorientierte Verfahrensführung entwickelt werden.
Rheology describes the flow of matter under the influence of stress, and - related to solids- it investigates how solids subjected to stresses deform. As the deformation of the Earth’s outer layers, the lithosphere and the crust, is a major focus of rheological studies, rheology in the geosciences describes how strain evolves in rocks of variable composition and temperature under tectonic stresses. It is here where deformation processes shape the form of ocean basins and mountain belts that ultimately result from the complex interplay between lithospheric plate motion and the susceptibility of rocks to the influence of plate-tectonic forces. A rigorous study of the strength of the lithosphere and deformation phenomena thus requires in-depth studies of the rheological characteristics of the involved materials and the temporal framework of deformation processes.
This dissertation aims at analyzing the influence of the physical configuration of the lithosphere on the present-day thermal field and the overall rheological characteristics of the lithosphere to better understand variable expressions in the formation of passive continental margins and the behavior of strike-slip fault zones. The main methodological approach chosen is to estimate the present-day thermal field and the strength of the lithosphere by 3-D numerical modeling. The distribution of rock properties is provided by 3-D structural models, which are used as the basis for the thermal and rheological modeling. The structural models are based on geophysical and geological data integration, additionally constrained by 3-D density modeling. More specifically, to decipher the thermal and rheological characteristics of the lithosphere in both oceanic and continental domains, sedimentary basins in the Sea of Marmara (continental transform setting), the SW African passive margin (old oceanic crust), and the Norwegian passive margin (young oceanic crust) were selected for this study.
The Sea of Marmara, in northwestern Turkey, is located where the dextral North Anatolian Fault zone (NAFZ) accommodates the westward escape of the Anatolian Plate toward the Aegean. Geophysical observations indicate that the crust is heterogeneous beneath the Marmara basin, but a detailed characterization of the lateral crustal heterogeneities is presented for the first time in this study. Here, I use different gravity datasets and the general non-uniqueness in potential field modeling, to propose three possible end-member scenarios of crustal configuration. The models suggest that pronounced gravitational anomalies in the basin originate from significant density heterogeneities within the crust. The rheological modeling reveals that associated variations in lithospheric strength control the mechanical segmentation of the NAFZ. Importantly, a strong crust that is mechanically coupled to the upper mantle spatially correlates with aseismic patches where the fault bends and changes its strike in response to the presence of high-density lower crustal bodies. Between the bends, mechanically weaker crustal domains that are decoupled from the mantle are characterized by creep.
For the passive margins of SW Africa and Norway, two previously published 3-D conductive and lithospheric-scale thermal models were analyzed. These 3-D models differentiate various sedimentary, crustal, and mantle units and integrate different geophysical data, such as seismic observations and the gravity field. Here, the rheological modeling suggests that the present-day lithospheric strength across the oceanic domain is ultimately affected by the age and past thermal and tectonic processes as well as the depth of the thermal lithosphere-asthenosphere boundary, while the configuration of the crystalline crust dominantly controls the rheological behavior of the lithosphere beneath the continental domains of both passive margins.
The thermal and rheological models show that the variations of lithospheric strength are fundamentally influenced by the temperature distribution within the lithosphere. Moreover, as the composition of the lithosphere significantly influences the present-day thermal field, it therefore also affects the rheological characteristics of the lithosphere. Overall my studies add to our understanding of regional tectonic deformation processes and the long-term behavior of sedimentary basins; they confirm other analyses that have pointed out that crustal heterogeneities in the continents result in diverse lithospheric thermal characteristics, which in turn results in higher complexity and variations of rheological behavior compared to oceanic domains with a thinner, more homogeneous crust.
Alix Giraud-Willer untersucht die Berechtigung starrer Mindeststrafen auf rechtsvergleichender Basis. Sie schränken den Entscheidungsspielraum des Richters bei der Strafzumessung erheblich ein. Absolute Strafen, eine extreme Ausprägung starrer Mindeststrafen, schließen einen richterlichen Entscheidungsspielraum im Grundsatz sogar gänzlich aus. Während das deutsche Strafrecht starre Mindeststrafen, einschließlich absoluter Strafen, vorsieht, nahm das französische Recht von starren (erhöhten) Mindeststrafen inzwischen Abstand. Die Autorin untersucht die Wechselwirkungen zwischen gesetzlicher Fixierung hoher Strafen, Reaktionen der Strafpraxis und gesetzlicher Lockerung der Strafdrohungen in beiden Rechtsordnungen. Durch ihren Blick auf zwei Jurisdiktionen bietet sie Erklärungsansätze für bestimmte Erscheinungen des geltenden Sanktionenrechts sowie Denkanstöße für seine Reformierung an.
In modern times of evolving globalization and continuous technological developments, organizations are required to respond to ever-changing demands. Therefore, to be successful in today’s highly uncertain environments, organizations need employees to actively search for opportunities, anticipate challenges, and act ahead. In other words, employee proactivity in the workplace represents a highly valuable resource in nowadays organizations. Empirical studies conducted as part of this thesis advance the research on the outcomes of proactivity from the individual perspective. The main contribution of this thesis pertains to revealing several important individual and contextual conditions under which engaging in proactivity will have negative and positive effects on employees’ well-being and their consequent behaviours, as well as shedding light on the unique psychological mechanisms through which these effects unfold. From a practical standpoint, this research underscores the importance of creating work environments that support employees’ autonomous motivation for proactivity and urge organizations and managers to be mindful about the pressures they place on employees to be proactive at work. Besides, this thesis stimulates research efforts aimed at further extending our knowledge of when and how individual proactive behaviours at work will do more good than harm for those who enact them.
The goal of this dissertation is to empirically evaluate the predictions of two classes of models applied to language processing: the similarity-based interference models (Lewis & Vasishth, 2005; McElree, 2000) and the group of smaller-scale accounts that we will refer to as faulty encoding accounts (Eberhard, Cutting, & Bock, 2005; Bock & Eberhard, 1993). Both types of accounts make predictions with regard to processing the same class of structures: sentences containing a non-subject (interfering) noun in addition to a subject noun and a verb. Both accounts make the same predictions for processing ungrammatical sentences with a number-mismatching interfering noun, and this prediction finds consistent support in the data. However, the similarity-based interference accounts predict similar effects not only for morphosyntactic, but also for the semantic level of language organization. We verified this prediction in three single-trial online experiments, where we found consistent support for the predictions of the similarity-based interference account. In addition, we report computational simulations further supporting the similarity-based interference accounts. The combined evidence suggests that the faulty encoding accounts are not required to explain comprehension of ill-formed sentences.
For the processing of grammatical sentences, the accounts make conflicting predictions, and neither the slowdown predicted by the similarity-based interference account, nor the complementary slowdown predicted by the faulty encoding accounts were systematically observed. The majority of studies found no difference between the compared configurations. We tested one possible explanation for the lack of predicted difference, namely, that both slowdowns are present simultaneously and thus conceal each other. We decreased the amount of similarity-based interference: if the effects were concealing each other, decreasing one of them should allow the other to surface. Surprisingly, throughout three larger-sample single-trial online experiments, we consistently found the slowdown predicted by the faulty encoding accounts, but no effects consistent with the presence of inhibitory interference.
The overall pattern of the results observed across all the experiments reported in this dissertation is consistent with previous findings: predictions of the interference accounts for the processing of ungrammatical sentences receive consistent support, but the predictions for the processing of grammatical sentences are not always met. Recent proposals by Nicenboim et al. (2016) and Mertzen et al. (2020) suggest that interference might arise only in people with high working memory capacity or under deep processing mode. Following these proposals, we tested whether interference effects might depend on the depth of processing: we manipulated the complexity of the training materials preceding the grammatical experimental sentences while making no changes to the experimental materials themselves. We found that the slowdown predicted by the faulty encoding accounts disappears in the deep processing mode, but the effects consistent with the predictions of the similarity-based interference account do not arise.
Independently of whether similarity-based interference arises under deep processing mode or not, our results suggest that the faulty encoding accounts cannot be dismissed since they make unique predictions with regard to processing grammatical sentences, which are supported by data. At the same time, the support is not unequivocal: the slowdowns are present only in the superficial processing mode, which is not predicted by the faulty encoding accounts. Our results might therefore favor a much simpler system that superficially tracks number features and is distracted by every plural feature.
Background: A growing body of research has documented negative effects of sexualization in the media on individuals’ self-objectification. This research is predominantly built on studies examining traditional media, such as magazines and television, and young female samples. Furthermore, longitudinal studies are scarce, and research is missing studying mediators of the relationship. The first aim of the present PhD thesis was to investigate the relations between the use of sexualized interactive media and social media and self-objectification. The second aim of this work was to examine the presumed processes within understudied samples, such as males and females beyond college age, thus investigating the moderating roles of age and gender. The third aim was to shed light on possible mediators of the relation between sexualized media and self-objectification.
Method: The research aims were addressed within the scope of four studies. In an experiment, women’s self-objectification and body satisfaction was measured after playing a video game with a sexualized vs. a nonsexualized character that was either personalized or generic. The second study investigated the cross-sectional link between sexualized television use and self-objectification and consideration of cosmetic surgery in a sample of women across a broad age spectrum, examining the role of age in the relations. The third study looked at the cross-sectional link between male and female sexualized images on Instagram and their associations with self-objectification among a sample of male and female adolescents. Using a two-wave longitudinal design, the fourth study examined sexualized video game and Instagram use as predictors of adolescents’ self-objectification. Path models were conceptualized for the second, third and fourth study, in which media use predicted body surveillance via appearance comparisons (Study 4), thin-ideal internalization (Study 2, 3, 4), muscular-ideal internalization (Study 3, 4), and valuing appearance (all studies).
Results: The results of the experimental study revealed no effect of sexualized video game characters on women’s self-objectification and body satisfaction. No moderating effect of personalization emerged. Sexualized television use was associated to consideration of cosmetic surgery via body surveillance and valuing appearance for women of all ages in Study 2, while no moderating effect of age was found. Study 3 revealed that seeing sexualized male images on Instagram was indirectly associated with higher body surveillance via muscular-ideal internalization for boys and girls. Sexualized female images were indirectly linked to higher body surveillance via thin-ideal internalization and valuing appearance over competence only for girls. The longitudinal analysis of Study 4 showed no moderating effect of gender: For boys and girls, sexualized video game use at T1 predicted body surveillance at T2 via appearance comparisons, thin-ideal internalization and valuing appearance over competence. Furthermore, the use of sexualized Instagram images at T1 predicted body surveillance at T2 via valuing appearance.
Conclusion: The findings show that sexualization in the media is linked to self-objectification among a variety of media formats and within diverse groups of people. While the longitudinal study indicates that sexualized media predict self-objectification over time, the experimental null findings warrant caution regarding this temporal order. The results demonstrate that several mediating variables might be involved in this link. Possible implications for research and practice, such as intervention programs and policy-making, are discussed.
In the last five years, gravitational-wave astronomy has gone from a purerly theoretical field into a thriving experimental science. Several gravitational- wave signals, emitted by stellar-mass binary black holes and binary neutron stars, have been detected, and many more are expected in the future as consequence of the planned upgrades in the gravitational-wave detectors. The observation of the gravitational-wave signals from these systems, and the characterization of their sources, heavily relies on the precise models for the emitted gravitational waveforms. To take full advantage of the increased detector sensitivity, it is then necessary to also improve the accuracy of the gravitational-waveform models.
In this work, I present an updated version of the waveform models for spinning binary black holes within the effective-one-body formalism. This formalism is based on the notion that the solution to the relativistic two- body problem varies smoothly with the mass ratio of the binary system, from the equal-mass regime to the test-particle limit. For this reason, it provides an elegant method to combine, under a unique framework, the solution to the relativistic two-body problem in different regimes. The main two regimes that are combined under the effective-one-body formalism are the slow-motion, weak field limit (accessible through the post-Newtonian theory), and the extreme mass-ratio regime (described using the black-hole- perturbation theory). This formalism is nevertheless flexible enough to integrate information about the solution to the relativistic two-body problem obtained using other techniques, such as numerical relativity.
The novelty of the waveform models presented in this work is the inclusion of beyond-quadupolar terms in the waveforms emitted by spinning binary black holes. In fact, while the time variation of the source quadupole moment is the leading contribution to the waveforms emitted by binary black holes observable by LIGO and Virgo detectors, beyond-quadupolar terms can be important for binary systems with asymmetric masses, large total mass, or observed with large inclination angle with respect to the orbital angular momentum of the binary. For this purpose, I combine the approximate analytic expressions of these beyond-quadupolar terms, with their calculations from numerical relativity, to develop an accurate waveform model including inspiral, merger and ringdown for spinning binary black holes. I first construct this model in the simplified case of black holes with spins aligned with the orbital angular momentum of the binary, then I extend it to the case of generic spin orientations. Finally, I test the accuracy of both these models against a large number of waveforms obtained from numerical relativity. The waveform models I present in this work are the state of the art for spinning binary black holes, without restrictions in the allowed values for the masses and the spins of the system.
The measurement of the source properties of a binary system emitting gravitational waves requires to compute O(107 − 109) different waveforms. Since the waveform models mentioned before can require O(1 − 10)s to generate a single waveform, they can be difficult to use in data-analysis studies given the increasing number of sources observed by the LIGO and Virgo detectors. To overcome this obstacle, I use the reduced-order-modeling technique to develop a faster version of the waveform model for black holes with spins aligned to the orbital angular momentum of the binary. This version of the model is as accurate as the original and reduces the time for evaluating a waveform by two orders of magnitude.
The waveform models developed in this thesis have been used by the LIGO and Virgo collaborations in the inference of the source parameters of the gravitational-wave signals detected during the second observing run (O2), and first half of the third observing run (O3a) of LIGO and Virgo detectors. Here, I present a study on the source properties of the signals GW170729 and GW190412, for which I have been directly involved in the analysis. In addition, these models have been used by the LIGO and Virgo collaborations to perform tests on General Relativity employing the gravitational-wave signals detected during O3a, and to analyze the population of the observed binary black holes.
Contributions to the theoretical analysis of the algorithms with adversarial and dependent data
(2021)
In this work I present the concentration inequalities of Bernstein's type for the norms of Banach-valued random sums under a general functional weak-dependency assumption (the so-called $\cC-$mixing). The latter is then used to prove, in the asymptotic framework, excess risk upper bounds of the regularised Hilbert valued statistical learning rules under the τ-mixing assumption on the underlying training sample. These results (of the batch statistical setting) are then supplemented with the regret analysis over the classes of Sobolev balls of the type of kernel ridge regression algorithm in the setting of online nonparametric regression with arbitrary data sequences. Here, in particular, a question of robustness of the kernel-based forecaster is investigated. Afterwards, in the framework of sequential learning, the multi-armed bandit problem under $\cC-$mixing assumption on the arm's outputs is considered and the complete regret analysis of a version of Improved UCB algorithm is given. Lastly, probabilistic inequalities of the first part are extended to the case of deviations (both of Azuma-Hoeffding's and of Burkholder's type) to the partial sums of real-valued weakly dependent random fields (under the type of projective dependence condition).