1314 search hits
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Visual working memory contents bias ambiguous structure from motion perception
(2013)
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Lisa Scocchia
Matteo Valsecchi
Karl R. Gegenfurtner
Jochen Triesch
- The way we perceive the visual world depends crucially on the state of the observer. In the present study we show that what we are holding in working memory (WM) can bias the way we perceive ambiguous structure from motion stimuli. Holding in memory the percept of an unambiguously rotating sphere influenced the perceived direction of motion of an ambiguously rotating sphere presented shortly thereafter. In particular, we found a systematic difference between congruent dominance periods where the perceived direction of the ambiguous stimulus corresponded to the direction of the unambiguous one and incongruent dominance periods. Congruent dominance periods were more frequent when participants memorized the speed of the unambiguous sphere for delayed discrimination than when they performed an immediate judgment on a change in its speed. The analysis of dominance time-course showed that a sustained tendency to perceive the same direction of motion as the prior stimulus emerged only in the WM condition, whereas in the attention condition perceptual dominance dropped to chance levels at the end of the trial. The results are explained in terms of a direct involvement of early visual areas in the active representation of visual motion in WM.
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Strongly correlated ultracold bosons in an optical lattice
(2012)
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Yongqiang Li
- In this thesis, we have investigated strongly correlated bosonic gases in an
optical lattice, mostly based on a bosonic version of dynamical mean field theory
and its real-space extension. Emphasis is put on possible novel quantum
phenomena of these many-body systems and their corresponding underlying
physics, including quantum magnetism, pair-superfluidity, thermodynamics,
many-body cooling, new quantum phases in the presence of long-range interactions,
and excitational properties. Our motivation is to simulate manybody
phenomena relevant to strongly correlated materials with ultracold lattice
gases, which provide an excellent playground for investigating quantum
systems with an unprecedented level of precision and controllability. Due to
their high controllability, ultracold gases can be regarded as a quantum simula-
tor of many-body systems in solid-state physics, high energy astrophysics, and
quantum optics. In this thesis, specifically, we have explored possible novel
quantum phases, thermodynamic properties, many-body cooling schemes, and
the spectroscopy of strongly correlated many-body quantum systems. The
results presented in this thesis provide theoretical benchmarks for exploring
quantum magnetism in upcoming experiments, and an important step towards
studying quantum phenomena of ultracold gases in the presence of long-range
interactions.
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Untersuchung von Size-Effekten thermischer Transportkoeffizienten von Nanodrähten
(2012)
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Heiko Reith
- In den letzten Jahren haben die Forschungsaktivitäten im Bereich Thermoelektrik stetig
zugenommen. Das neu erweckte Interesse an der Thermoelektrik ist zurückzuführen
auf neue nanostrukturierte Materialien, Quantenschicht-Strukturen und Nanodrähte, welche
eine wesentliche Steigerung der thermoelektrischen Effektivität Z im Vergleich zum Massivmaterial versprechen. Für Nanodrähte ist die größte Steigerung der thermoelektrischen Effektivität zu erwarten. Zur Bestätigung der Theorie bedarf es neuer Messmethoden zur Bestimmung des Seebeck-Koeffizienten S, der elektrischen Leitfähigkeit σ und der Wärmeleitfähigkeit λ, um hieraus eine Steigerung der thermoelektrischen Effektivität Z = (Sexp2)σ/λ experimentell zu bestätigen.
Der Schwerpunkt der Doktorarbeit lag in der Untersuchung thermoelektrischer Eigenschaften
von Nanodrähten. Hierzu wurden neueMessmethoden zur Bestimmung der elektrischen
und thermischen Leitfähigkeit von Nanodrähten entwickelt.
Die elektrische und thermische Leitfähigkeit von Pt-Nanodrähten wurden mit dem in dieser
Arbeit entwickelten λ-Chip gemessen. Die elektrische Leitfähigkeit der Pt-Nanodrähte
ist im Vergleich zum Massivmaterial entsprechend der klassischen Size-Effekt-Theorie
reduziert. Ebenso wurde eine Abnahme der Wärmeleitfähigkeit beobachtet. Die Ergebnisse
stimmen mit den im Rahmen der klassischen Size-Effekt-Theorie zu erwartenden
Resultaten gut überein, jedoch bedarf die Reduzierung der Lorenz-Zahl noch einer theoretischen
Erklärung.
Im Weiteren wurde die elektrische Leitfähigkeit von BixTe1-x und BixSb1-x-Nanodrähten
mit dem λ-Chip bestimmt. Hierzu wurden zunächst unterschiedliche Kontaktmaterialien
getestet, um die Diffusion des Kontaktmaterials in den Nanodraht auszuschließen. Als
bewährtes Kontaktmaterial stellte sich ein Schichtsystem aus Titan und Gold heraus. Die
Ti-Schicht wirkt hierbei als Diffusionsbarriere und Haftvermittler-Schicht. Die Wärmeleitfähigkeit
der Bi-haltigen Nanodrähte konnte mit dem λ-Chip nicht gemessen werden,
da die Unterätzung der Nanodrähte mittels reaktivem Ionenätzen die Nanodrähte angriff.
Als Alternative können die Nanodrähte auf dem λ-Chip mit einem fokusierten Ionenstrahl
unterätzt werden. Der Aufwand hierzu ist jedoch relativ hoch und diese Alternative wurde
deshalb nicht weiter verfolgt.
Als weitere Alternative wurde der Z-Chip entwickelt. Hierbei werden die Nanodrähte auf
den fertigen Chip aufgebracht und mittels Elektronenstrahl-induzierter Deposition an den
elektrischen Kontakten fixiert. Der Chip ermöglicht die Messung der elektrische Leitfähigkeit in 4-Punkt-Anordnung, der Wärmeleitfähigkeit und des Seebeck-Koeffizienten an
einem einzelnen Nanodraht. Somit ist die Bestimmung der thermoelektrischen Effektivität
an einem Nanodraht möglich.
DesWeiteren wurden die theoretischen Grundlagen zur Bestimmung der Wärmekapazität
an einzelnen Nanodrähten mit dem Z-Chip präsentiert. Zum Zeitpunkt der Durchführung
dieser Arbeit fehlte jedoch das notwendige Equipment zur Ausführung der Wärmekapazitätsmessung
an einzelnen Nanodrähten.
Des Weiteren wurde die Cross-Plane Methode zur Bestimmung der Wärmeleitfähigkeit
an eingebetteten Nanodrähten entwickelt. Analog der Messmethode, welche für die Einzeldrahtmessungen
verwendet wird, handelt es sich hierbei um eine stationäre „Joule-
Heating“ Methode. Die Temperaturdifferenz wird aus der Widerstandsänderung einer auf
die eingebetteten Nanodrähte aufgebrachten Heizschicht bestimmt.Mit derMethode wurde
die Wärmeleitfähigkeit von BixTe1-x-Nanodrähten ermittelt.
Die elektrische Leitfähigkeit wurde von BixTe1-x-Nanodrähten unterschiedlicher Zusammensetzung
und Herstellungsparameter mit dem λ- und dem Z-Chip bestimmt. Die gemessenen
Nanodrähte zeigen sowohl intrinsisches wie extrinsisches Leitungsverhalten
verbunden mit einer, im Vergleich zum Volumenmaterial, reduzierten Temperaturabhängigkeit
der elektrischen Leitfähigkeit infolge von Oberflächen- und Korngrenzenstreuung
der Ladungsträger. Die elektrischen Leitfähigkeitsmessungen stimmen mit Beobachtungen
anderer Gruppen gut überein.
Die Wärmeleitfähigkeit konnte an einem einzelnen BixTe1-x-Nanodraht und an eingebetteten
BixTe1-x-Nanodrähten gemessen werden. Die Wärmeleitfähigkeit ist gegenüber dem
Massivmaterial reduziert. Die Ergebnisse sind in guter Übereinstimmung mit bisher publizierten
Ergebnissen von Bismuttellurid-Nanodrähten.
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Directed deposition of silicon nanowires using neopentasilane as precursor and gold as catalyst
(2012)
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Britta Kämpken
Verena Wulf
Norbert Auner
Marcel Winhold
Michael Huth
Daniel Rhinow
Andreas Terfort
- In this work the applicability of neopentasilane (Si(SiH3)4) as a precursor for the formation of silicon nanowires by using gold nanoparticles as a catalyst has been explored. The growth proceeds via the formation of liquid gold/silicon alloy droplets, which excrete the silicon nanowires upon continued decomposition of the precursor. This mechanism determines the diameter of the Si nanowires. Different sources for the gold nanoparticles have been tested: the spontaneous dewetting of gold films, thermally annealed gold films, deposition of preformed gold nanoparticles, and the use of “liquid bright gold”, a material historically used for the gilding of porcelain and glass. The latter does not only form gold nanoparticles when deposited as a thin film and thermally annealed, but can also be patterned by using UV irradiation, providing access to laterally structured layers of silicon nanowires.
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Human myocardial protein pattern reveals cardiac diseases
(2012)
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Jonas Bergquist
Gökhan Baykut
Maria Bergquist
Matthias Witt
Franz-Josef Mayer
Doan Baykut
- Proteomic profiles of myocardial tissue in two different etiologies of heart failure were investigated using high performance liquid chromatography (HPLC)/Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR MS). Right atrial appendages from 10 patients with hemodynamically significant isolated aortic valve disease and from 10 patients with isolated symptomatic coronary heart disease were collected during elective cardiac surgery. As presented in an earlier study by our group (Baykut et al., 2006), both disease forms showed clearly different pattern distribution characteristics. Interesting enough, the classification patterns could be used for correctly sorting unknown test samples in their correct categories. However, in order to fully exploit and also validate these findings there is a definite need for unambiguous identification of the differences between different etiologies at molecular level. In this study, samples representative for the aortic valve disease and coronary heart disease were prepared, tryptically digested, and analyzed using an FT-ICR MS that allowed collision-induced dissociation (CID) of selected classifier masses. By using the fragment spectra, proteins were identified by database searches. For comparison and further validation, classifier masses were also fragmented and analyzed using HPLC-/Matrix-assisted laser desorption ionization (MALDI) time-of-flight/time-of-flight (TOF/TOF) mass spectrometry. Desmin and lumican precursor were examples of proteins found in aortic samples at higher abundances than in coronary samples. Similarly, adenylate kinase isoenzyme was found in coronary samples at a higher abundance. The described methodology could also be feasible in search for specific biomarkers in plasma or serum for diagnostic purposes.
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TOFtracker: combination of time-of-flight and high-accuracy bidimensional tracking in a single gaseous detector
(2012)
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Alberto Blanco
Paulo Fonte
Luis Lopes
P Martins
Jan Michel
Marek Palka
Kajetanowicz
Grzegorz Korcyl
Michael Traxler
Rui Ferreira Marques
- A 5-gap timing RPC equipped with patterned electrodes coupled to both charge-sensitive and
timing circuits yields a time accuracy of 77 ps along with a position accuracy of 38 μm. These
results were obtained by calculating the straight-line fit residuals to the positions provided by a
3-layer telescope made out of identical detectors, detecting almost perpendicular cosmic-ray
muons. The device may be useful for particle identification by time-of-flight, where
simultaneous measurements of trajectory and time are necessary.
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Study of exclusive one-pion and one-eta production using hadron and dielectron channels in pp reactions at kinetic beam energies of 1.25 GeV and 2.2 GeV with HADES
(2012)
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Geydar Agakishiev
Alvarez-Pol
Balanda
Bassini
Michael Böhmer
Bokemeyer
Boyard
Cabanelas
Chernenko
Christ
Destefanis
Dohrmann
Dybczak
Eberl
Laura Fabbietti
Oleg Fateev
Finocchiaro
Jürgen Friese
Ingo Fröhlich
Tetyana Galatyuk
Juan A. Garzón
Roman Gernhäuser
Camilla Gilardi
Marina Golubeva
Diego González-Dıaz
Fedor Guber
Gumberidze
Hennino
Holzmann
Holzmann
Ierusalimov
Iori
Alexander Ivashkin
Martin Jurkovic
Kämpfer
Kanaki
Tatiana Karavicheva
Ilse Koenig
Wolfgang Koenig
Burkhard W. Kolb
Kotte
Kozuch
Krizek
Wolfgang Kühn
Andrej Kugler
Alexei Kurepin
S Lang
Kirill Lapidus
T. Liu
Ludwig Maier
Jochen Markert
Volker Metag
Beata Michalska
Emilie Morinière
Jehad Mousa
Mathias Münch
Christian Münch
Naumann
Jacek Tomasz Otwinowski
Yvonne C. Pachmayer
Vladimir Pechenov
Olga Pechenova
Tiago Pérez Cavalcanti
Jerzy Pietraszko
Vladimir Pospısil
Witold Przygoda
Béatrice Ramstein
Andrey Reshetin
M. Roy-Stephan
Anar Rustamov
Alexander Sadovsky
Benjamin Sailer
Piotr Salabura
M. Sánchez
Alexander Schmah
Erwin Schwab
Yuri Sobolev
Stefano Spataro
Björn Spruck
Herbert Ströbele
Joachim Stroth
Christian Sturm
Attilio Tarantola
Khaled Teilab
Pavel Tlusty
Alberica Toia
Michael Traxler
Radoslaw Trebacz
Haralabos Tsertos
Vladimir Wagner
Marcin Wisniowski
Tomasz Wojcik
Jörn Wüstenfeld
Sergey Yurevich
Yuri Zanevsky
Peter Zumbruch
- We present measurements of exclusive ensuremathπ+,0 and η production in pp reactions at 1.25GeV and 2.2GeV beam kinetic energy in hadron and dielectron channels. In the case of π+ and π0 , high-statistics invariant-mass and angular distributions are obtained within the HADES acceptance as well as acceptance-corrected distributions, which are compared to a resonance model. The sensitivity of the data to the yield and production angular distribution of Δ (1232) and higher-lying baryon resonances is shown, and an improved parameterization is proposed. The extracted cross-sections are of special interest in the case of pp → pp η , since controversial data exist at 2.0GeV; we find \ensuremathσ=0.142±0.022 mb. Using the dielectron channels, the π0 and η Dalitz decay signals are reconstructed with yields fully consistent with the hadronic channels. The electron invariant masses and acceptance-corrected helicity angle distributions are found in good agreement with model predictions.
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Dissipative hydrodynamics for multi-component systems
(2012)
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Andrej El
Ioannis Bouras
Christian Wesp
Zhe Xu
Carsten Greiner
- Second-order dissipative hydrodynamic equations for each component of a multi-component system are derived using the entropy principle. Comparison of the solutions with kinetic transport results demonstrates validity of the obtained equations. We demonstrate how the shear viscosity of the total system can be calculated in terms of the involved cross-sections and partial densities. The presence of the inter-species interactions leads to a characteristic time dependence of the shear viscosity of the mixture, which also means that the shear viscosity of a mixture cannot be calculated using the Green-Kubo formalism the way it has been done recently. This finding is of interest for understanding of the shear viscosity of a quark-gluon plasma extracted from comparisons of hydrodynamic simulations with experimental results from RHIC and LHC.
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RHIC and LHC phenomena with an unified parton transport
(2012)
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Ioannis Bouras
Andrej El
Oliver Fochler
Felix Reining
Florian Senzel
Jan Uphoff
Christian Wesp
Zhe Xu
Carsten Greiner
- We discuss recent applications of the partonic pQCD based cascade model BAMPS with focus on
heavy-ion phenomeneology in hard and soft momentum range. The nuclear modification factor
as well as elliptic flow are calculated in BAMPS for RHIC end LHC energies. These observables
are also discussed within the same framework for charm and bottom quarks. Contributing to
the recent jet-quenching investigations we present first preliminary results on application of jet
reconstruction algorithms in BAMPS. Finally, collective effects induced by jets are investigated:
we demonstrate the development of Mach cones in ideal matter as well in the highly viscous
regime.
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(Oscillating) non-exponential decays of unstable states
(2012)
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Francesco Giacosa
Giuseppe Pagliara
- We discuss deviations from the exponential decay law which occur when going beyond the Breit-
Wigner distribution for an unstable state. In particular, we concentrate on an oscillating behavior,
remisiscent of the Rabi-oscillations, in the short-time region. We propose that these oscillations
can explain the socalled GSI anomaly, which measured superimposed oscillations on top of the
exponential law for hydrogen-like nuclides decaying via electron-capture. Moreover, we discuss
the possibility that the deviations from the Breit-Wigner in the case of the GSI anomaly are (predominantely)
caused by the interaction of the unstable state with the measurement apparatus.
The consequences of this scenario, such as the non-observation of oscillations in an analogous
experiment perfromed at Berkley, are investigated.
