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Fotofisica e fotochimica di sistemi organici coniugati di interesse biologico e tecnologicoConti, Irene <1976> 15 April 2008 (has links)
No description available.
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Structure determination of proteins and peptides in solution: simulation, chirality and NMR studiesPietropaolo, Adriana <1981> 16 April 2008 (has links)
The study of protein fold is a central problem in life science, leading in the
last years to several attempts for improving our knowledge of the protein
structures. In this thesis this challenging problem is tackled by means of
molecular dynamics, chirality and NMR studies.
In the last decades, many algorithms were designed for the protein secondary
structure assignment, which reveals the local protein shape adopted by segments of amino acids. In this regard, the use of local chirality for the protein
secondary structure assignment was demonstreted, trying to correlate as well
the propensity of a given amino acid for a particular secondary structure.
The protein fold can be studied also by Nuclear Magnetic Resonance (NMR)
investigations, finding the average structure adopted from a protein. In this
context, the effect of Residual Dipolar Couplings (RDCs) in the structure refinement was shown, revealing a strong improvement of structure resolution.
A wide extent of this thesis is devoted to the study of avian prion protein.
Prion protein is the main responsible of a vast class of neurodegenerative
diseases, known as Bovine Spongiform Encephalopathy (BSE), present in
mammals, but not in avian species and it is caused from the conversion of
cellular prion protein to the pathogenic misfolded isoform, accumulating in
the brain in form of amiloyd plaques. In particular, the N-terminal region,
namely the initial part of the protein, is quite different between mammal
and avian species but both of them contain multimeric sequences called Repeats, octameric in mammals and hexameric in avians. However, such repeat
regions show differences in the contained amino acids, in particular only
avian hexarepeats contain tyrosine residues. The chirality analysis of avian
prion protein configurations obtained from molecular dynamics reveals a high
stiffness of the avian protein, which tends to preserve its regular secondary
structure. This is due to the presence of prolines, histidines and especially tyrosines, which form a hydrogen bond network in the hexarepeat region, only
possible in the avian protein, and thus probably hampering the aggregation.
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Spettroscopia rotazionale di specie di interesse astrofisicoTinti, Francesca <1977> 16 April 2008 (has links)
No description available.
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Microfluidic device and interfacial transport: application to biomolecules and nanostructuresGreco, Pierpaolo <1977> 27 April 2009 (has links)
The aim of my dissertation is to provide new knowledge and applications of microfluidics in a variety of problems, from materials science, devices, and biomedicine, where the control on the fluid dynamics and the local concentration of the solutions containing the relevant molecules (either materials, precursors, or biomolecules) is crucial. The control of interfacial phenomena occurring in solutions at dierent length scales is compelling in nanotechnology for devising new sensors, molecular electronics devices, memories.
Microfluidic devices were fabricated and integrated with organic electronics devices. The transduction involves the species in the solution which infills the transistor channel and confined by the microfluidic device. This device measures what happens on the surface, at few nanometers from the semiconductor channel. Soft-lithography was adopted to fabricate platinum electrodes, starting from platinum carbonyl precursor. I proposed a simple method to assemble these nanostructures in periodic arrays of microstripes, and form conductive electrodes with characteristic dimension of 600 nm. The conductivity of these sub-microwires is compared with the values reported in literature and bulk platinum. The process is suitable for fabricating thin conductive patterns for electronic devices or electrochemical cells, where the periodicity of the conductive pattern is comparable with the diusion length of the molecules in solution.
The ordering induced among artificial nanostructures is of particular interest in science. I show that large building blocks, like carbon nanotubes or core-shell nanoparticles, can be ordered and self-organised on a surface in patterns due to capillary forces. The eective probability of inducing order with microfluidic flow is modeled with finite element calculation on the real geometry of the microcapillaries, in soft-lithographic process.
The oligomerization of A40 peptide in microconfined environment represents a new investigation of the extensively studied peptide aggregation. The added value of the approach I devised is the precise control on the local concentration of peptides together with the possibility
to mimick cellular crowding. Four populations of oligomers where distinguished, with diameters ranging from 15 to 200 nm. These aggregates could not be addresses separately in fluorescence. The statistical analysis on the atomic force microscopy images together with a model of growth reveal new insights on the kinetics of amyloidogenesis as well as allows me to identify the minimum stable nucleus size. This is an important result owing to its implications in the understanding and early diagnosis and therapy of the Alzheimer’s disease
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Computer simulation of ordering and dynamics in liquid crystals in the bulk and close to the surfacePizzirusso, Antonio <1980> 27 April 2009 (has links)
The aim of this PhD thesis is to investigate the orientational and dynamical properties of liquid crystalline
systems, at molecular level and using atomistic computer simulations, to reach a better understanding of
material behavior from a microscopic point view. In perspective this should allow to clarify the relation
between the micro and macroscopic properties with the objective of predicting or confirming experimental
results on these systems.
In this context, we developed four different lines of work in the thesis.
The first one concerns the orientational order and alignment mechanism of rigid solutes of small dimensions dissolved in a nematic phase formed by the 4-pentyl,4 cyanobiphenyl (5CB) nematic liquid crystal.
The orientational distribution of solutes have been obtained with Molecular Dynamics Simulation (MD) and
have been compared with experimental data reported in literature. we have also verified the agreement
between order parameters and dipolar coupling values measured in NMR experiments. The MD determined
effective orientational potentials have been compared with the predictions of MaierSaupe and Surface tensor
models.
The second line concerns the development of a correct parametrization able to reproduce the phase
transition properties of a prototype of the oligothiophene semiconductor family: sexithiophene (T6).
T6 forms two crystalline polymorphs largely studied, and possesses liquid crystalline phases still not well
characterized, From simulations we detected a phase transition from crystal to liquid crystal at about 580 K,
in agreement with available experiments, and in particular we found two LC phases, smectic and nematic.
The crystalsmectic transition is associated to a relevant density variation and to strong conformational
changes of T6, namely the molecules in the liquid crystal phase easily assume a bent shape, deviating from
the planar structure typical of the crystal.
The third line explores a new approach for calculating the viscosity in a nematic through a virtual exper-
iment resembling the classical falling sphere experiment. The falling sphere is replaced by an hydrogenated
silicon nanoparticle of spherical shape suspended in 5CB, and gravity effects are replaced by a constant force
applied to the nanoparticle in a selected direction. Once the nanoparticle reaches a constant velocity, the
viscosity of the medium can be evaluated using Stokes' law. With this method we successfully reproduced
experimental viscosities and viscosity anisotropy for the solvent 5CB.
The last line deals with the study of order induction on nematic molecules by an hydrogenated silicon
surface. Gaining predicting power for the anchoring behavior of liquid crystals at surfaces will be a very
desirable capability, as many properties related to devices depend on molecular organization close to surfaces.
Here we studied, by means of atomistic MD simulations, the flat interface between an hydrogenated (001)
silicon surface in contact with a sample of 5CB molecules. We found a planar anchoring of the first layers of
5CB where surface interactions are dominating with respect to the mesogen intermolecular interactions. We
also analyzed the interface 5CBvacuum, finding a homeotropic orientation of the nematic at this interface.
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Drift Tubes Trigger System of the CMS Experiment at LHC : Commissioning and PerformancesBattilana, Carlo <1980> 14 May 2009 (has links)
In this thesis the performances of the CMS Drift Tubes Local Trigger System of the CMS detector are studied. CMS is one of the general purpose experiments that will operate at the Large Hadron Collider at CERN. Results from data collected during the Cosmic Run At Four Tesla (CRAFT) commissioning exercise, a globally coordinated run period where the full experiment was involved and configured to detect cosmic rays crossing the CMS cavern, are presented. These include analyses on the precision and accuracy of the trigger reconstruction mechanism and measurement of the trigger efficiency. The description of a method to perform system synchronization is also reported, together with a comparison of the outcomes of trigger electronics and its software emulator code.
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Theoretical insight into the properties of light induced events of photochromic systems and rhodopsin proteinsTomasello, Gaia <1981> 27 April 2009 (has links)
No description available.
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Hardware and software development of a multichannel readout board named CARLOSrx for the ALICE experimentCosta, Filippo <1978> 21 May 2009 (has links)
ALICE, that is an experiment held at CERN using the LHC, is specialized in analyzing lead-ion collisions. ALICE will study the properties of quarkgluon plasma, a state of matter where quarks and gluons, under conditions of very high temperatures and densities, are no longer confined inside hadrons. Such a state of matter probably existed just after the Big Bang, before particles such as protons
and neutrons were formed. The SDD detector, one of the ALICE subdetectors, is part of the ITS that is composed by 6 cylindrical layers with the innermost one attached to the beam pipe. The ITS tracks and identifies particles near the
interaction point, it also aligns the tracks of the articles detected by more external detectors. The two
ITS middle layers contain the whole 260 SDD detectors.
A multichannel readout board, called CARLOSrx, receives at the same time the data coming from 12 SDD detectors. In total there are 24 CARLOSrx boards needed to read data coming from all the SDD modules (detector plus front end electronics). CARLOSrx packs data coming from the front end
electronics through optical link connections, it stores them in a large data FIFO and then it sends them to the DAQ system. Each CARLOSrx is composed by two boards. One is called CARLOSrx data, that reads data coming from the SDD detectors and configures the FEE; the other one is called CARLOSrx clock, that sends the clock signal to all the FEE.
This thesis contains a description of the hardware design and firmware features of both CARLOSrx data and CARLOSrx clock boards, which deal with all the SDD readout chain.
A description of the software tools necessary to test and configure the front end electronics will be presented at the end of the thesis.
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Applications of High Speed Configurable Logic Devices in Modern Particle Physics ExperimentsGiorgi, Filippo Maria <1981> 21 May 2009 (has links)
Several activities were conducted during my PhD activity. For the NEMO experiment a collaboration between the INFN/University groups of Catania and Bologna led to the development and production of a mixed signal acquisition board for the Nemo Km3 telescope. The research concerned the feasibility study for a different acquisition
technique quite far from that adopted in the NEMO Phase 1 telescope.
The DAQ board that we realized exploits the LIRA06 front-end chip for the analog acquisition of anodic an dynodic sources of a PMT (Photo-Multiplier Tube). The low-power analog acquisition allows to sample contemporaneously multiple channels of the PMT at different
gain factors in order to increase the signal response linearity over a wider dynamic range. Also the auto triggering and self-event-classification features help to improve the acquisition performance and the knowledge on the neutrino event. A fully functional interface towards the first level data concentrator, the Floor Control Module, has been integrated as well on the board, and
a specific firmware has been realized to comply with the present communication protocols. This stage of the project foresees the use of an FPGA, a high speed configurable device, to provide the board with a flexible digital logic control core. After the validation of the whole front-end architecture this feature would be probably integrated in a common mixed-signal ASIC (Application Specific
Integrated Circuit). The volatile nature of the configuration memory of the FPGA implied the integration of a flash ISP (In System Programming) memory and a smart architecture for a safe remote reconfiguration of it. All the integrated features of the board have been tested. At the Catania laboratory the behavior of the LIRA chip has been investigated in the digital environment of the DAQ board and we succeeded in driving the acquisition with the FPGA. The PMT pulses generated with an arbitrary waveform generator were correctly triggered and acquired by the analog chip, and successively they were digitized by the on board ADC under the supervision of the FPGA. For the communication towards the data concentrator a test
bench has been realized in Bologna where, thanks to a lending of the Roma University and INFN, a full readout chain equivalent to that present in the NEMO phase-1 was installed. These tests showed a good behavior of the digital electronic that was able to receive and to
execute command imparted by the PC console and to answer back with a reply. The remotely configurable logic behaved well too and demonstrated, at least in principle, the validity of this technique.
A new prototype board is now under development at the Catania laboratory as an evolution of the one described above. This board is going to be deployed within the NEMO Phase-2 tower in one of its floors dedicated to new front-end proposals. This board will integrate a new analog acquisition chip called SAS (Smart Auto-triggering Sampler) introducing thus a new analog front-end but
inheriting most of the digital logic present in the current DAQ board discussed in this thesis.
For what concern the activity on high-resolution vertex detectors, I worked within the SLIM5 collaboration for the characterization of a MAPS (Monolithic Active Pixel Sensor) device called APSEL-4D. The mentioned chip is a matrix
of 4096 active pixel sensors with deep N-well implantations meant for charge collection and to shield the analog electronics from digital noise. The chip integrates the full-custom sensors matrix and the sparsifification/readout logic realized with standard-cells in STM CMOS technology 130 nm. For the chip characterization a test-beam has been set up on the 12 GeV PS (Proton Synchrotron) line facility at CERN of Geneva (CH). The collaboration prepared a
silicon strip telescope and a DAQ system (hardware and software) for data acquisition and control of the telescope that allowed to store about 90 million events in 7 equivalent days of live-time of the beam. My activities concerned basically the realization of a firmware interface towards and from the MAPS chip in order to integrate it on the general DAQ system. Thereafter I worked on the
DAQ software to implement on it a proper Slow Control interface of the APSEL4D. Several APSEL4D chips with different thinning have been tested during the test beam. Those with 100 and 300 um presented an
overall efficiency of about 90% imparting a threshold of 450 electrons. The test-beam allowed to estimate also the resolution of the pixel sensor providing good results
consistent with the pitch/sqrt(12) formula. The MAPS intrinsic resolution has been extracted from the width of the residual plot taking into account the multiple scattering effect.
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Reconstruction of CNGS neutrino events in the emulsions of the OPERA experimentPozzato, Michele <1980> 14 May 2009 (has links)
The OPERA experiment aims at the direct observation of ν_mu -> ν_tau oscillations in the CNGS (CERN Neutrinos to Gran Sasso) neutrino beam produced at CERN; since the ν_e contamination in the CNGS beam is low, OPERA will also be able to study the sub-dominant oscillation channel ν_mu -> ν_e.
OPERA is a large scale hybrid apparatus divided in two supermodules, each equipped with electronic detectors, an iron spectrometer and a highly segmented ~0.7 kton target section made of Emulsion Cloud Chamber (ECC) units.
During my research work in the Bologna Lab. I have taken part to the set-up of the automatic scanning microscopes studying and tuning the scanning system performances and efficiencies with emulsions exposed to a test beam at CERN in 2007.
Once the triggered bricks were distributed to the collaboration laboratories, my work was centered on the procedure used for the localization and the reconstruction of neutrino events.
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