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This thesis combines behavioral and cognitive approaches regarding the Web for analyzing users' behavior and supposed interests.
The work is placed in a new field of research called Web Science, which includes, but is not restricted to, the analysis of the World Wide Web. The term Web Science is affected by Tim Berners-Lee et al., who invited the researchers to "create a science of the web" [BLHH+06a]. The thesis is structured in two parts, reflecting the intersection of disciplines that is required for Web Science.
The first part is related to computer science and information systems. This part defines the Gugubarra concepts and algorithms for web user profiling and builds upon the results by Mushtaq et al. [MWTZ04]. This profiling aims at understanding the behavior and supposed interests of users. Based on these concepts, a framework was implemented to support the needs of web site owners. The core technologies used are Java, Spring, Hibernate, and content management systems. The design principles, architecture, implementation, and tests of the prototype are reported.
The second part is directly related to behavioral economics and is connected to the areas of economics, mathematics, and psychology. This part contributes to behavior models, as was claimed by Tim Berners-Lee et al.: "Though individual users may or may not be rational, it has long been noted that en masse people behave as utility maximisers. In that case, understanding the incentives that are available to web users should provide methods for generating models of behaviour..."[BLHH+06b]. The focus here is on studies that investigate the user's choice of online information services in a multi-attribute context. The introduced research framework takes into account background and local context effects and builds upon theoretical foundations by Tversky and Kahneman [TK86]. The findings provide useful insights to behavioral scientists and to practitioners on how to use framing strategies to alter the user's choice.
Organische Materialien haben bis zur Mitte des 20. Jahrhunderts hinsichtlich ihrer elektronischen Eigenschaften keine besondere Aufmerksamkeit auf sich gezogen. Größeres Interesse an diesen Materialien entstand erst durch die Entdeckung einer ungewöhnlich hohen elektrischen Leitfähigkeit des organischen Perylen-Bromin Ladungstransfer-Komplexes durch Inokuchi et al. im Jahr 1954. Diese neue Klasse von Materialien besteht typischerweise aus Donor- und Akzeptor-Molekülen, die in einer bestimmten Stöchiometrie aneinander gebunden sind. Elektrische Ladung wird zwischen den Donor- und Akzeptor-Molekülen transferiert. Um diesen Prozess zu beschreiben, entwickelte Robert Mulliken in den 60er Jahren ein theoretisches Gerüst. Abhängig von der Anordnung der Moleküle und transferierten elektrischen Ladung kann der Ladungstransfer-Komplex (oder Salz) ein Isolator, ein Halbleiter, ein Metall oder sogar ein Supraleiter sein. Noch mehr Aufmerksamkeit erhielten Ladungstransfer-Materialien mit der Entdeckung des ersten quasi-eindimensionalen organischen Metalls TTF-TCNQ (tetrathiafulvalene-tetracyanoquinodimethane) im Jahr 1973. ...
The current work investigated the association of trait anxiety and the neural efficiency of cognitive processing for affectively neutral (not threat-related) information. In a sample of 46 healthy volunteers, three fMRI experiments were conducted to test the prediction derived from attentional control theory (Eysenck et al., 2007) that high as compared to low trait-anxious individuals expend more neural effort on tasks requiring the top-down control of attention to reach a given level of performance. In a colour-word Stroop task requiring the inhibition of irrelevant stimulus information and associated responses as well as in a working-memorymanipulation task requiring the shifting of attention between items in working memory, trait anxiety (as measured with the State-Trait Anxiety Inventory; Spielberger et al., 1970) was positively associated with task-related increases in the activation of two adjacent regions in the right dorsolateral prefrontal cortex (DLPFC). The finding that along with a stronger activation of this brain region commonly implicated in top-down control processes, the high-anxious subjects showed equal (working memory manipulation) or worse (Stroop) performance when compared to low-anxious subjects, does support the assumption that processing is less efficient in the high anxious. However, in contrast to the predictions, trait anxiety did not show a significant association with task-related brain activation in a task-switching paradigm requiring shifting between task sets. It is discussed how different attentional control demands of the task may account for differences in the effects of trait anxiety on overt behavioural performance and underlying neural processes. In addition to DLPFC activation, trait anxiety modulated the functional connectivity of distributed regions involved in processing of the Stroop and the working-memory-manipulation task. It is discussed how the observed differences in regional DLPFC activation and network connectivity relate to each other. A possible interpretation suggests that activation increases in the DLPFC reflect an attempt to compensate for suboptimal connectivity by investing more effort in prefrontally supported control processes. Overall, the current work shows an association of trait anxiety with the neural efficiency of cognitive processing in affectively neutral tasks involving attentional control. Furthermore, it suggests that investigations of neural efficiency should take into account difference in functional integration in addition to regional activation.
Towards a THz Bloch laser
(2011)
The realisation of tunable THz laser sources working at room temperature would give
rise to further applications in this range of the electromagnetic spectrum. The THz
Bloch laser could therefore become the basis for a technological breakthrough. Beside
this practical relevance, the physics of the gain mechanism has been investigated
theoretically for a long time and the experimental implementation of a self-starting
laser still has not been achieved.
At the beginning of this thesis the basic principles of Bloch oscillations and the
related Bloch gain are described. The need of a superlattice structure to make Bloch
oscillations possible in a semiconductor material is discussed. In this context, the effect
of negative differential resistance and its influence on the field distribution due to Gunn
domains is explained. The latter lead to an inhomogeneous field which may suppress
the Bloch gain mechanism. The Krömer criterion is introduced and the concept of
field-pinning layers to improve the field homogeneity is deduced. Finally, the design of
the laser material is shown and different types of laser waveguides are compared.
In chapter 3 detailed recipes for the processing of samples are given. Different types of
contacts (ohmic and Schottky), the wafer bonding process required for double-metal
lasers and the application of different photoresists for different purposes are described.
An explanation of the formation of waveguides due to dry etching, wet etching
and ion implantation follows. Dry etching is an established technique in the field
of microstructure processing but the challenge of etching about 20 μm has led to
problems. The high etching depth also makes wet etching difficult but this method
could be improved due to a hard bake of the photoresist. The protection of critical
areas on the surface of the samples with photoresist during ion implantation was
increased by optimising the spin coating process. However, a full implantation of the
active layer between the waveguides was not achieved which was the reason for the
development of the hybrid technology. Here a prior wet etching of about 10 μm is
performed and the rest of the material is implanted.
The experimental setup is shown in chapter 4. An alternative method for the electrical
contacting with the help of a copper bar is introduced. This improves the current
distribution and the risk of an electrical breakdown during the measurements could
therefore be lowered. Devices for THz beam guidance and spectroscopic measurements
are shown and the method of biasing the samples with pulses below 100 ns and
determining the effective voltage applied to the sample is depicted. These short pulses
are required to prevent the samples heating up drastically due to high power.
Chapter 5 contains the current-voltage characterisation of several structures including
I-V-samples, Bloch laser samples and a quantum cascade laser. Different contacts
(ohmic and Schottky) and different techniques for the formation of the ridges have
been used in the processing of these samples (performed at the University of Frankfurt
in all cases) and their influence on the I-V-dependence is discussed. The properties of
the THz emission of the quantum cascade laser are in good agreement with published
results from lasers processed with the same material. Another important result of
this chapter is that the Bloch laser samples show unstable behaviour compared to the
quantum cascade structure even with short pulses (of about 10 ns) where the risk of an
electrical breakdown or the building of filaments is low. THz radiation emitted from
one of the Bloch laser samples could not be observed.
Two aspects that may have prevented the Bloch laser to emit are discussed in
chapter 6. The saturation of the gain for higher amplitudes of the THz wave is
investigated in single mode and multiple mode operation (the latter could occur due
to the Bloch gain being expected to be broadband). In both cases it is shown that
the saturation effect would limit the output power only to values clearly above the
detection limit. In the subsequent section the distribution of the electric field is
simulated with SILVACO software. Structures with transit layer lengths above the
Krömer criterion are compared with structures which include field-pinning layers. It is
shown that the latter are useful to avoid propagating Gunn domains as they build up
in similar structures without field-pinning layers. Nevertheless, the electric field inside
the superlattice regions is not stable. Beside spatial inhomogeneities also temporal
variations of the field magnitude are observed. The lack of a suitable field distribution
is expected to be the main reason for the samples not to work.
Time-resolved spectroscopic analysis of fucoxanthin-chlorophyll proteins and isolated carotenoids
(2011)
The aim of this thesis was to elucidate the excitation energy transfer in the fucoxanthin-chlorophyll proteins (FCPs) isolated from the diatom Cyclotella meneghiniana in detail and to clarify the role of the different pigments contained. In a first step the excited state dynamics of the free pigments were studied by means of time-resolved absorption spectroscopy. The FCPs contain three different carotenoid species. Besides the main light-harvesting carotenoid fucoxanthin (fx) the xanthophyll cycle pigments diadinoxanthin (ddx) and diatoxanthin (dtx) are found in substoichiometric amounts. Fx is contained in an unusual carotenoid-to-chlorophyll ratio of about one. In case of ddx and dtx, changing the solvent polarity showed no significant effects on the absorption spectrum and the excited state dynamics were hardly influenced. In contrast, a solvent dependence is observed in the absorption spectrum and excited state dynamics of fx. The S1 lifetime depends strongly on the solvent polarity and an additional broad excited state absorption band red shifted compared to the S1 excited state absorption appears. The occurrence of the described features can be explained with an intramolecular charge transfer state, which is stabilized in a polar environment and appears only in carotenoids with a conjugated carbonyl group. Despite its rather short excited state lifetimes of less than 200 fs (S2) and 30-60 ps (S1), fx acts as a very efficient energy donor in the FCPs. The ultrafast energy transfer dynamics of the isolated proteins FCPa and FCPb were investigated in a comprehensive study using transient absorption in the visible and NIR spectral region complemented with polarized transient absorption spectroscopy. The excitation energy transfer was not influenced significantly by changing the light conditions during the growth, which yields an altered amount of ddx and dtx. It can be concluded that the contribution of the xanthophyll cycle pigments to the energy transfer is not significant. The altered oligomerization state results in a more efficient energy transfer for the trimeric FCPa, which is also reflected in different Chl a fluorescence quantum yields. Thus, an increased quenching in the higher oligomers of FCPb can be assumed. The observed dynamics change drastically for two different excitation wavelengths λ = 500 nm and λ = 550 nm, which both lead to the population of the S2 excited state of individual carotenoids, namely blue and red absorbing fx molecules. The differing absorption maxima result from distinct microenvironments within the protein. For FCPa an additional slow time constant of 25 ps was found after excitation at 500 nm. By means of polarized transient absorption spectroscopy applied to FCPa different transition dipole moments for the S1 and the ICT state of fx could be identified. Based on the presented studies a detailed model explaining the excitation energy transfer pathways could be developed. In agreement with the faster overall transfer rate which is also evident in the anisotropy data in case of 550 nm excitation, upon excitation at 500 nm one slow transfer channel is active. It can be attributed to a blue absorbing fx not strongly associated with a Chl a molecule. Most likely excitation energy transfer takes place between the S1/ICT states of two different fx molecules before the energy is transferred to Chl a. Additional transient absorption experiments with an improved time resolution were performed to investigate the oscillations observed. These coherent effects superimposed the kinetics of isolated carotenoids as well as FCPs within the first 500 fs. The oscillations showed a very unusual damping behavior and vanished already after two oscillation periods. In case of fx, the solvent environment as well as the excitation wavelengths had an influence on the oscillations. The frequencies of the oscillations were 70-100 cm^-1 for fx in solvents with varying polarity and 50-80 cm^-1 for the FCPs. These results could further confirm the assumption that the red absorbing fx molecules are located in a more polar environment within the protein compared to the blue absorbing fx. To clarify the origin of the oscillations in more detail, further experiments with a controlled chirp of the applied pulses and comparison between different carotenoids in various solvents are required. This approach promises to give further insight in the excited state dynamics and to answer the question whether dark states are involved. Right now, the coherent excitation of the strongly coupled excited states 1Bu+ (S2) and 1Bu- resulting in electronic quantum beats and the existence of an additional short lived excited state absorption (S2-SN2) in the visible spectral region are the most reasonable explanations for the occurrence of the coherent effects in the transient absorption spectra of carotenoids.
Subject of this thesis is the non-perturbative investigation of the thermal transition in Quantum Chromodynamics by means of lattice gauge theory and a particular type of lattice fermions, the so-called twisted mass fermions. These fermions offer the possibility of improvement as compared to the standard Wilson-type formulation. We investigate the properties of these fermions at finite temperature, i.e. the structure of the bare parameter space as well as leading order cutoff effects in the weak coupling limit. Then we focus on two-flavour simulations at finite pion mass. We identify the (pseudo-)critical temperatures for our set of pion masses (300 to 500 MeV) and discuss the extrapolation to the chiral limit for which the nature of the transition is still an open question. Besides pseudo-critical temperatures we consider the magnetic equation of state and screening observables. We find that the assumption of a second order transition (in the 3d O(4) universality class) agrees with our data without being able to exclude alternatives. Finally, we discuss the future inclusion of strange and charm quarks in dynamical twisted mass simulations and look at the corresponding cutoff effects in the free limit.
Sponges are one of the major components of benthic communities and are considered to be a
key role organism in marine ecosystems. In addition to their importance in terms of
biodiversity, sponges are becoming increasingly attractive to the industry, as they themselves
or associated symbionts, produce various kinds of secondary metabolites of pharmaceutical
properties. Some of them have already been clinically applied.
The taxonomic characters of Porifera are limited to only a few morphological and
histological characters. In addition, sponges of the same species often show a wide
morphological variability, whereas the latter depends on different ecological parameters such
as water depth and current conditions. Thus, the taxonomic classification of sponges often
becomes a scientific challenge.
The fauna of the Yellow Sea rates among the least studied worldwide. At the same time,
according to the UN Atlas of the Ocean, the Yellow Sea is one of the most intensively
exploited marine areas in the world. This is not least due to the dense human population living
in the entire catchment area of the Yellow Sea region. In order to compile medium- and longterm
conclusions about the anthropogenic impact on biota of the Yellow Sea, the knowledge
of species and their distribution is of crucial importance, as these data form the baseline for all
future conservation efforts.
Until now the sponge fauna of the Chinese Yellow Sea is insufficiently investigated.
Thus, there is only one publication on sponges from this region that has been released
hitherto. This paper is dealing with only a view species. However, there is no reference
concerning the present location of the voucher material, on which this publication is based on.
Consequently, no scientific collection on Porifera from the Chinese part of the Yellow Sea
exists to date.
In order to compile a documentation of the recent sponge community of the Chinese
Yellow Sea, 12 study sites along the coast of the Liaoning Peninsula, China, Northeast
Yellow Sea, were investigated with focus on sponge distribution. The corresponding habitats
were characterized in regard to their topographical features, abiotic parameters, and common
composition of benthic megafaunal and macroalgal assemblages.
Due to the lack of comparable studies, a comprehensive literature research on sponges of the
shallow Northwest Pacific Ocean was required. As a result the first compilation of
publications is presented, dealing with sponges from shallow depths of the northwestern
Pacific Ocean.
Abstract
2
In the course of this study, 31 sponge species in total were recorded, which are scientifically
processed. With the exception of four all specimens were determined to species- level.
Twelve out of the total number of species are new to science and are described and classified
according to the recent taxonomic system of the phylum Porifera.
The results of this study indicate considerable differences in species composition between
investigated sites. It is shown that physical factors (particularly current regime, sedimentation,
seasonally related variations in temperatures), as well the availability of suitable substrates are
directly related to the diversity and abundance of investigated sponge communities. In this
context possible adaptation strategies of the corresponding sponges were discussed in detail.
Two sponge species, Clathria (Clathria) asodes and Antho (Acarnia) lithophoenix, formerly
known exclusively from the northeastern Pacific Ocean, are now recorded from the Northwest
Pacific Ocean for the first time. Furthermore, Penares hongdoensis, Clathria (Clathria)
hongdoensis and Celtodoryx girardae were synonymized with Penares cortius, Clathria
(Clathria) acanthostyli, and Celtodoryx ciocalyptoides respectively. Moreover, the occurrence
of eight sponge species, which were known from previous records from the Yellow Sea, could
be confirmed.
As a result of this study the Asian origin of a sponge species that is invasive to the French and
Dutch coasts of the Northeast Atlantic Ocean since the 1990s could be established. Moreover,
it is demonstrated that Celtodoryx girardae from the northeastern Atlantic is in fact
conspecific with Cornulum ciocalyptoides described by Burton (1935) from the Posiet Bay,
Sea of Japan. Apart from taxonomic remarks, variations between populations from both
oceans are examined and discussed thoroughly in regard to possible ecological implications.
The community of documented sponges shows overlapping with the one from the Sea of
Japan. According to the results it is assumed that the endemic degree of the sponges from the
Chinese Yellow Sea is rather low to moderate.
The material obtained in the course of this study was integrated in the collection of the
Senckenbergischen Naturforschenden Sammlungen. Therefore, it is the first scientific
collection of sponges from the Chinese Yellow Sea that can be consulted as a basis for all
further studies on sponges of this region.
The present study is the only investigation of sponges from Dalian and adjacent waters before
the spill occurred in the Dalian harbour in July 2010. Therefore, it provides an essential
baseline needed to assess the impact of the oil spill on benthic communities.
The role of small leucine-rich proteoglycans, biglycan and decorin, in podocytopathy and albuminuria
(2011)
Biglycan is a member of the small leucine-rich proteoglycan (SLRP) family and is involved in the assembly of extracellular matrix components. In macrophages soluble biglycan acts as an endogenous ligand of the innate immunity receptors TLR2 and TLR4. Data addressing the role of biglycan in renal pathology are surprisingly limited. In a normal kidney, biglycan is expressed mainly in the tubulointerstitium; however, in the course of various renal diseases its expression may be altered. The biological role and mechanisms of biglycan action in the pathology of renal diseases, especially those affecting glomeruli, remain poorly understood.
Albuminuria is the first detectable clinical abnormality in diabetic nephropathy. In this study we detected increased biglycan mRNA expression in glomeruli of renal biopsies of patients with incipient diabetic nephropathy, with predominant localization in podocytes. This novel finding raised the question about the role and mechanisms of biglycan action in diabetic podocyte injury and whether the mechanisms of biglycan signaling causing podocyte injury and albuminuria could be extrapolated to other glomerular diseases.
To investigate the role of biglycan in the cause of diabetic podocyte injury and albuminuria we used the murine model of STZ-induced diabetic nephropathy and wild type (Bgn+/0) and biglycan deficient (Bgn-/0) mice. We observed that biglycan was expressed on mRNA and protein levels in podocytes of diabetic Bgn+/0 mice and that diabetic Bgn+/0 mice also had significantly higher albuminuria compared to non-diabetic mice 6 and 12 weeks after disease induction. Biglycan deficiency was shown to be an important factor in albuminuria development. Namely, we observed that diabetic Bgn-/0 mice had significantly lower levels of urinary albumin compared to diabetic Bgn+/0 mice. We showed that less severe podocyte loss in the urine of diabetic Bgn-/0 mice was associated with significantly higher nephrin and podocin glomerular expression compared to diabetic Bgn+/0 mice. Our data suggested that biglycan deficiency was protective against podocyte loss into urine and might be beneficial against development of albuminuria in diabetes.
Biglycan contributed to podocyte actin rearrangement due to increased phosphorylation of Rac1 in vitro. Furthermore, biglycan induced caspase-3 activity and production of reactive oxygen species (ROS), thus enhancing apoptosis in cultured podocytes. Biglycan-induced ROS generation was TLR2/TLR4-dependent. Overexpression of soluble biglycan in wild type mice induced albuminuria under normal conditions and significantly increased albuminuria under pathological conditions (murine model of LPS-induced albuminuria). Inhibition of Rac1 activity in vivo decreased the albuminuria induced by biglycan overexpression. In patients with glomerular diseases, biglycan was detected in urine and was associated with nephrin appearance in the urine of these patients and with increased albuminuria. Collectively, our results elucidate a novel mechanism for biglycan-induced TLR2- and TLR4-dependent, Rac1- and ROS-mediated podocytopathy leading to podocyturia, albuminuria development and progression of glomerular diseases. Interfering with biglycan actions and blocking its signaling via TLR2 and TLR4 might be a potential therapeutic strategy against these diseases. To achieve this goal, the specific mechanisms for binding of biglycan to TLR2 and TLR4 must be elucidated and effective ways of preventing this binding must be developed. Nevertheless, biglycan remains the “danger signal” that activates innate immune receptors in non-immune cells and triggers the deleterious mechanisms leading to aggravation of renal injury.
Which factors determine whether a stimulus is consciously perceived or unconsciously processed? Here, I investigate how previous experience on two different time scales – long term experience over the course of several days, and short term experience based on the previous trial – impact conscious perception. Regarding long term experience, I investigate how perceptual learning does not only change the capacity to process stimuli, but also the capacity to consciously perceive them. To this end, subjects are trained extensively to discriminate between masked stimuli, and concurrently rate their subjective experience. Both the ability to discriminate the stimuli as well as subjective awareness of the stimuli increase as a function of training. However, these two effects are not simple byproducts of each other. On the contrary, they display different time courses, with above chance discrimination performance emerging before subjective experience; importantly, the two learning effects also rely on different circuits in the brain: Moving the stimuli outside the trained receptive field size abolishes the learning effects on discrimination ability, but preserves the learning effects on subjective awareness.
This indicates that the receptive fields serving subjective experience are larger than the ones serving objective performance, and that the channels through which they receive their information are arranged in parallel. Regarding short term experience, I investigate how memory based predictions arising from information acquired on the trial before affect visibility and the neural correlates of consciousness. To this end, I vary stimulus evidence as well as predictability and acquire electroencephalographic data.
A comparison of the neural processes distinguishing consciously perceived from unperceived trials with and without predictions reveals that predictions speed up processing, thus shifting the neural correlates forward in time. Thus, the neural correlates of consciousness display a previously unappreciated flexibility in time and do not arise invariably late as had been predicted by some theorists.
Admittedly, however, previous experience does not always stabilize perception. Instead, previous experience can have the reverse effect: Seeing the opposite of what was there, as in so-called repulsive aftereffects. Here, I investigate what determines the direction of previous experience using multistable stimuli. In a functional magnetic resonance imaging experiment, I find that a widespread network of frontal, parietal, and ventral occipital brain areas is involved in perceptual stabilization, whereas the reverse effect is only evident in extrastriate cortex. This areal separation possibly endows the brain with the flexibility to switch between exploiting already available information and emphasizing the new.
Taken together, my data show that conscious perception and its neuronal correlates display a remarkable degree of flexibility and plasticity, which should be taken into account in future theories of consciousness.
The role of peroxisome proliferator-activated receptor gamma during sepsis-induced lymphopenia
(2011)
Sepsis is one of the most common diseases on intensive care units all over the world and accounts there for the highest mortality rate. One of the hallmarks of sepsis is an accelerated T-cell apoptosis, resulting in a compromised immune state with the inability to eradicate pathogens. This promotes organ damage or even organ failure. A multiple organ dysfunction evolves, which often ends up in septic shock and death. Recently, it was shown that severe T-cell depletion correlates with sepsis mortality. When inhibiting T-cell apoptosis, an increased mouse survival was observed in experimental sepsis. ...