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The purpose of this study was to reconstruct the depositional environment, the genesis and the composition of Miocene coals in the Kutai Basin, East Kalimantan, Indonesia and to improve our understanding of the factors controlling the organic and inorganic composition, variation of biomarkers, and the peat forming vegetation of the coals. To achieve the aim methods belonging to three different disciplines were applied: 1. Coal petrology (chapter 3) 2. Inorganic geochemistry: sulfur, pyrite and mineral matter distributions (chapter 4) 3. Organic geochemistry of saturated, aromatic hydrocarbon fractions and stable carbon isotopic composition (chapter 5 and 6) Coal petrology Coal developes from peat deposited in mires, mainly in swamps and raised bogs. It is therefore necessary to consider how peat was formed in the past. Coal contains a variety of plant tissues in different degrees of preservation. Tissues of distinct origin are microscopically identifiable and can frequently be related to certain parts of the plant, such as cuticles, woody structures, spores, algal, resin, etc. Together with the particles of less certain origin they are termed macerals which are the petrographic components of coal. During and after deposition of plant remains in sedimentary basins, the organic matter will undergo a sequence of physical, biochemical and chemical changes, which finally results in the formation of coals of increasing rank depending mainly on the temperature influence. The process of coalification begins with practically unaltered plant material and peat, and continues with increasing rank through brown coal, bituminous coal, and finally to anthracite as well as graphite. Coal petrography provides valuable of data of maceral and mineral percentages with reflectance values, which can be used to reconstruct the depositional environment and the coalification processes. In lower rank coals, the material is represented by a group of macerals called huminite, and in bituminous and anthracite coals by a group of macerals called vitrinite. Coal petrography analyses have been carried out on samples from some Miocene coal seams from Kutai Basin. The study has shown that huminite reflectance values of coal samples from ...
ALICE (A Large Ion Collider Experiment), is the dedicated heavy-ion experiment at the Large Hadron Collider (LHC) at CERN. It is optimised to reconstruct and identify the particles created in a lead-lead collision with a centre of mass energy of 5.5TeV. The main tracking detector is a large-volume time-projection chamber (TPC). With an active volume of about 88m^3 and a total readout area of 32.5m^2 it is the most challenging TPC ever build. A central electrode divides the 5m long detector into two drift regions. Each readout side is subdivided into 18 inner and 18 outer multi-wire proportional read-out chambers. The readout area is subdivide into 557568 pads, where each pad is read out by and electronics chanin. A complex calibration is needed in order to reach the design position-resolution of the reconstructed particle tracks of about 200um. One part of the calibration lies in understanding the electronic-response. The work at hand presents results of the pedestal and noise behaviour of the front-end electronics (FEE), measurements of the pulse-shaping properties of the FEE using results obtained with a calibration pulser and measurements performed with the laser-calibration system. The data concerned were taken during two phases of the TPC commissioning. First measurements were performed in the clean room where the TPC was built. After the TPC was moved underground and built into the experiment, a second round of commissioning took place. Noise measurements in the clean room revealed a very large fraction of pads with noise values larger than the design specifications. The unexpected high noise values could be explained by the 'ground bounce' effect. Two modifications helped to reduce this effect: A desynchronisation in the the start of the readout of groups of channels and a modification in the grounding scheme of the FEE. Further noise measurements were carried out after the TPC has been moved to the experimental area underground. Here even a larger fraction of channels showed too large noise values. This could be traced back to a common mode current injected by the electronics power supplies. To study the shaping properties of the FEE a calibration pulser was used. To generate signals in the FEE a pulse is injected to the cathode wires of the read-out chambers. Due to manufacturing tolerances slight channel-by-channel variations of the shaping properties are expected. This effects the determination of the arrival time as well as the measured integral signal of the induced charge and has to be corrected. The measured arrival time variations follow a Gaussian distribution with a width (sigma) of 6.2ns. This corresponds to an error of the cluster position of about 170um. The charge variations are on the level of 2.8%. In order to reach the intrinsic resolution on the measurement of the specific energy loss of the particles (6%) those variations have to be taken into account. The photons of the laser-calibration system are energetic enough to emit photo electrons off metallic surfaces. Most interesting for the detector calibration are photo electrons from the central electrode. The laser light is intense enough to get a signal in all readout channels of the TPC. Since the central electrode is a smooth surface, differences in the arrival time between sectors reveal mechanical displacements of the readout sectors and can be used to correct for this effect. In addition the measurements can be used to determine the electron drift velocity in the TPC gas. The drift velocity measurements have shown a vertical as well as a radial gradient. The first can be explained by the temperature gradient, which naturally builds up in the 5m high detector. The second gradient is most probably caused by a relative conical deformation of the readout plane and the central electrode.
Twentieth-century scholars have thought little about the attractions of Descartes’ thinking. Especially in feminist theory, he has a bad press as the ‘instigator’ of the body-mind-split – seen as one of the theoretical bases for the subordination of women in Western culture. Seen from within seventeenth-century discourse it is the dictum that can be inferred from his writings that ‘the mind has no sex’ and which can be seen as an appeal to think about rational capacities in the utopian perspective of a gender neutral discourse. My work analyses this “face” of Cartesianism as it was adapted in favour of English seventeenth-century women. How were the specific tenets of Descartes’ philosophy employed on behalf of English women in the second half of the seventeenth century in England? My focus is on Descartes as a thinker, who – whatever his real or imagined intention might have been – provided women in seventeenth-century England with tools with which to change their status, in other words: with instruments of empowerment. So why were Descartes’ arguments so attractive for women? Descartes had argued for equal rational abilities among individuals in a gender neutral way. He had further critiqued generally accepted truth with his universal doubt. I believe this specific combination of ideas, affirming their rational capabilities, was seen by a number of women as an invitation to become involved in spheres of activity from which they were previously excluded. Moreover, a specific set of Descartes’ arguments provided a number of English women with a strategy to extend female agency. Not only did Descartes’ views legitimate female rationality, they also allowed an acknowledgement that this female intellect was equally connected to “truth” as that of their male contemporaries. As a consequence, women developed an increased self-esteem and inspiration to pursue their own independent study (and in some cases publishing). These ideas eventually helped to bring forward a demand for female education, as girls and women were still excluded from formal education in seventeenth-century England. My general thesis is that Cartesianism, as one of the earliest universalist theories on the nature of human reason, introduced new possibilities into the English debate over the nature and, hence, social position of women. It brought a radical twist to the already existing discussion on women by offering new critical tools which were taken up to argue on behalf of English women. In my work I examine the specific historical conditions of the reception of Descartes’ thought in England, the philosophical appeal of his ideas for women and analyse the writings of two English ‘disciples’ of Descartes: Margaret Cavendish, Duchess of Newcastle and Mary Astell.
The dissertation deals with the general problem of how the brain can establish correspondences between neural patterns stored in different cortical areas. Although an important capability in many cognitive areas like language understanding, abstract reasoning, or motor control, this thesis concentrates on invariant object recognition as application of correspondence finding. One part of the work presents a correspondence-based, neurally plausible system for face recognition. Other parts address the question of visual information routing over several stages by proposing optimal architectures for such routing ('switchyards') and deriving ontogenetic mechanisms for the growth of switchyards. Finally, the idea of multi-stage routing is united with the object recognition system introduced before, making suggestions of how the so far distinct feature-based and correspondence-based approaches to object recognition could be reconciled.
Conclusion Scale Integration Based on the results of spike-field coherence, the underlying process of shortterm memory seems to involve networks of different sizes within and, most probably, beyond prefrontal cortex. Spikes, which were generated by single neurons, cooperate with local field potentials, which were the slower fluctuations of the environment. Although differences among behavioral conditions appear to be based on rather few instances of phase-locked spikes, the task-related effects on spike-field coherence are highly reliable and cannot be explained by chance, as the comparison of results from experimental and simulated data shows. The differential locking of prefrontal neuron populations with two different frequency bands in their input signals suggests that neuronal activity underlying short-term memory in prefrontal cortex transiently engages cortical circuits on different spatial scales, probably in order to coordinate distributed processes. NeuroXidence method and Synchronizedfiring Based on the results of the calibration datasets, for bi- and multi-variate cases, the extension of NeuroXidence remains its sensitivity and reliability of detecting coordinate firing events for different processes. Based on this extension of NeuroXidence, we demonstrated that in monkey’s prefrontal cortex during short-term memory task, encoding and maintenance of the information rely on the formation of neuronal assemblies characterized by precise and reliable synchronization of spiking activity on a millisecond time scale, which is consistent with the results from spike-spike coherence. The task and performance dependent modulation of synchrony reflects the dynamic formation of group of neurons has large effect on short-term-memory.