2,106 research outputs found
Design and development of a gas management subsystem for a Brayton space power system
Gas management subsystem using xenon-helium working fluid designed for Brayton space power syste
Spectroscopic and Theoretical Study on Siloxy-Based Molybdenum and Tungsten Alkylidyne Catalysts for Alkyne Metathesis
A combined spectroscopic and theoretical study on triphenyl- and dimethyl-phenyl siloxy molybdenum and tungsten alkylidyne catalysts for alkyne metathesis is reported. Using NMR, X-ray, UV-VIS, Resonance Raman spectroscopy and DFT calculations, the influence of different ligand systems and metal centers on the geometric and electronic structure and thermochemistry of different intermediates is investigated, that is the starting alkylidyne and the derived metallacyclobutadiene and metallatetrahedrane. This includes a mechanistic and kinetic study on the formation and isomerization of metallacyclobutadienes and metallatetrahedranes. Upon changing from monodentate to tripodal siloxy ligands, higher steric strain is imposed, which modulates the relative energies of the different intermediates. Additionally, intramolecular dispersion interactions between bound substrate and ligand can be operative. Tungsten as the central metal leads to stronger M-C Ï-bonds, which overstabilize the reaction intermediates and preclude effective turnover. Furthermore, kinetic modeling strongly suggests that metallatetrahedranes are off-cycle intermediates based on the high barriers for direct formation but low barriers for isomerization from metallacyclobutadienes. We infer from our findings that effective catalysis can only be achieved when factors that (over)stabilize intermediates, such as strong M-C bonds or large dispersion interactions, are prevented by appropriate catalyst design
Electron Waiting Times in Mesoscopic Conductors
Electron transport in mesoscopic conductors has traditionally involved
investigations of the mean current and the fluctuations of the current. A
complementary view on charge transport is provided by the distribution of
waiting times between charge carriers, but a proper theoretical framework for
coherent electronic systems has so far been lacking. Here we develop a quantum
theory of electron waiting times in mesoscopic conductors expressed by a
compact determinant formula. We illustrate our methodology by calculating the
waiting time distribution for a quantum point contact and find a cross-over
from Wigner-Dyson statistics at full transmission to Poisson statistics close
to pinch-off. Even when the low-frequency transport is noiseless, the electrons
are not equally spaced in time due to their inherent wave nature. We discuss
the implications for renewal theory in mesoscopic systems and point out several
analogies with energy level statistics and random matrix theory.Comment: 4+ pages, 3 figure
Adaptive spectral clustering with application to tripeptide conformation analysis
A decomposition of a molecular conformational space into sets or functions (states) allows for
a reduced description of the dynamical behavior in terms of transition probabilities between these
states. Spectral clustering of the corresponding transition probability matrix can then reveal
metastable conformations. The more states are used for the decomposition, the smaller the risk
to cover multiple conformations with one state, which would make these conformations indistinguishable.
However, since the computational complexity of the clustering algorithm increases
quadratically with the number of states, it is desirable to have as few states as possible. To balance
these two contradictory goals, we present an algorithm for an adaptive decomposition of the
position space starting from a very coarse decomposition. The algorithm is applied to small data
classification problems where is was shown to be superior to commonly used algorithms such as
e.g. k-means. We also applied this algorithm to the conformation analysis of a tripeptide molecule
where six-dimensional time series were successfully analyzed
Toolbox of resonant quantum gates in Circuit QED
We propose the implementation of fast resonant gates in circuit quantum
electrodynamics for quantum information processing. We show how a suitable
utilization of three-level superconducting qubits inside a resonator
constitutes a key tool to perform diverse two-qubit resonant gates, improving
the operation speed when compared to slower dispersive techniques. To
illustrate the benefit of resonant two-qubit gates in circuit QED, we consider
the implementation of a two-dimensional cluster state in an array of N x N
superconducting qubits by using resonant controlled-phase (CPHASE) and
one-qubit gates, where the generation time grows linearly with N. For N=3, and
taking into account decoherence mechanisms, a fidelity over 60% for the
generation of this cluster state is obtained.Comment: 6 page
Identifying drivers of spatio-temporal dynamics in Barley Yellow Dwarf Virus epidemiology as a critical factor in disease control
Barley yellow dwarf virus (BYDV) is one of the most important viral diseases of small grains worldwide. An understanding of its epidemiology is crucial to control this disease in a sustainable way. The virus moves through the agricultural landscape via cereal aphids as vectors. Understanding movement of these aphids in space and time is of key importance and in doing so, the spatial and temporal variables that influence BYDV epidemiology can be identified. The presence of summer hosts, crop rotation, crop diversity, agricultural practices and climate variables are crucial. Through digitalization, spatial (e.g. land-use) and temporal (e.g. weather) information is becoming more readily available. Including this information into a prediction model could improve decision support systems that will rationalize the decision-making process towards a more integrated control of the disease
Productive Alkyne Metathesis with âCanopy Catalystsâ Mandates Pseudorotation
Molybdenum alkylidyne complexes of the âcanopy catalystâ series define new standards in the field of alkyne metathesis. The tripodal ligand framework lowers the symmetry of the metallacyclobutadiene complex formed by [2 + 2] cycloaddition with the substrate and imposes constraints onto the productive [2 + 2] cycloreversion; pseudorotation corrects this handicap and makes catalytic turnover possible. A combined spectroscopic, crystallographic, and computational study provides insights into this unorthodox mechanism and uncovers the role that metallatetrahedrane complexes play in certain cases
Surface modification and characterization of thermoplastic polyurethane
http://www.sciencedirect.com/science/article/B6TWW-4VP4TNJ-1/2/26b1d7dd60ae5bcab0cfe30ac2771c0
Cytokine patterns in nasal secretion of non-atopic patients distinguish between chronic rhinosinusitis with or without nasal polys
Background: Being one of the most common nasal diseases, chronic rhinosinusitis (CRS) is subdivided into CRS with nasal polyps (NP) and CRS without nasal polyps (CRSsNP). CRSsNP presents itself with a T(H)1 milieu and neutrophil infiltration, while NP is characterised by a mixed T(H)1/T(H)2 profile and an influx of predominantly eosinophils, plasma cells and mast cells. For the purpose of discovering disease-specific cytokine profiles, the present study compares levels of mediators and cytokines in nasal secretions between CRSsNP, NP, and healthy controls. Methods: The study included 45 participants suffering from NP, 48 suffering from CRSsNP and 48 healthy controls. Allergic rhinitis constituted an exclusion criterion. Nasal secretions, sampled using the cotton wool method, were analysed for IL-4, IL-5, IL-10, IL-12, IL-13, IL-17, IL-8, GM-CSF, G-CSF, IFN-gamma, MCP-1, MIP-1 alpha, MIP-1 beta, eotaxin, and RANTES, and for ECP and tryptase, using Bio-Plex Cytokine assay or ELISA, respectively. Results: Elevated levels of IL-5, IL-17, G-CSF, MCP-1, MIP-1 alpha, MIP-1 beta, ECP, and tryptase, as well as decreased levels of IL-10, IL-12, IL-13, and IFN-gamma were detected in NP. CRSsNP presented increased levels of RANTES and MIP-1 beta while IL-13 was decreased. No differences between the three groups were found for IL-4, IL-8, GM-CSF, and eotaxin. Conclusions: The present work suggests a disequilibrium of T(H)1 and T(H)2, together with a down-regulation of regulatory T lymphocytes and up-regulated T(H)17 in NP. Moreover, elevated levels of diverse mediators represent the activation of various inflammatory cells in this disease entity. The inflammation in CRSsNP, however, is only weakly depicted in nasal secretions. Therefore, cytokines in nasal secretions may provide helpful information for differential diagnosis
The Gaugings of Maximal D=6 Supergravity
We construct the most general gaugings of the maximal D=6 supergravity. The
theory is (2,2) supersymmetric, and possesses an on-shell SO(5,5) duality
symmetry which plays a key role in determining its couplings. The field content
includes 16 vector fields that carry a chiral spinor representation of the
duality group. We utilize the embedding tensor method which determines the
appropriate combinations of these vectors that participate in gauging of a
suitable subgroup of SO(5,5). The construction also introduces the magnetic
duals of the 5 two-form potentials and 16 vector fields.Comment: 34 pages, latex, reference added, typo's corrected and minor
improvements mad
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