Category Archive: 2012

Oct 28

Probability of inconsistencies in theory revision,
A multi-agent model for updating logically interconnected beliefs under bounded confidence

Authors: Sylvia Wenmackers, Danny E. P. Vanpoucke, and Igor Douven
Journal: Eur. Phys. J. B 85, 44 (2012)
doi: 10.1140/epjb/e2011-20617-8
IF(2012): 1.282
export: bibtex
pdf: <Eur.Phys.J.B>

Abstract

We present a model for studying communities of epistemically interacting agents who update their belief states by averaging (in a specified way) the belief states of other agents in the community. The agents in our model have a rich belief state, involving multiple independent issues which are interrelated in such a way that they form a theory of the world. Our main goal is to calculate the probability for an agent to end up in an inconsistent belief state due to updating (in the given way). To that end, an analytical expression is given and evaluated numerically, both exactly and using statistical sampling. It is shown that, under the assumptions of our model, an agent always has a probability of less than 2% of ending up in an inconsistent belief state. Moreover, this probability can be made arbitrarily small by increasing the number of independent issues the agents have to judge or by increasing the group size. A real-world situation to which this model applies is a group of experts participating in a Delphi-study.

Oct 28

Tuning of CeO2 buffer layers for coated superconductors through doping

Authors: Danny E. P. Vanpoucke, Stefaan Cottenier, Veronique Van Speybroeck, Patrick Bultinck, and Isabel Van Driessche,
Journal: Appl. Surf. Sci. 260, 32-35 (2012)
doi: 10.1016/j.apsusc.2012.01.032
IF(2012): 2.112
export: bibtex
pdf: <Appl.Surf.Sci.> <arXiv>

Abstract

The appearance of microcracks in cerium oxide (CeO2) buffer layers, as used in buffer layer architectures for coated superconductors, indicates the presence of stress between this buffer layer and the substrate. This stress can originate from the differences in thermal expansion or differences in lattice parameters between the CeO2 buffer layer and the substrate. In this article, we study, by means of ab initio density functional theory calculations, the influence of group IV doping elements on the lattice parameter and bulk modulus of CeO2. Vegard’s law behavior is found for the lattice parameter in systems without oxygen vacancies, and the Shannon crystal radii for the doping elements are retrieved from the lattice expansions. We show that the lattice parameter of the doped CeO2 can be matched to that of the La2Zr2O7 coated NiW substrate substrate for dopant concentrations of about 5%, and that bulk modulus matching is either not possible or would require extreme doping concentrations.

Oct 28

Models and simulations in material science: two cases without error bars

Authors: Sylvia Wenmackers and Danny E. P. Vanpoucke
Journal: Statistica Neerlandica 66, 339-355 (2012)
doi: 10.1111/j.1467-9574.2011.00519.x
IF(2012): 0.585
export: bibtex
pdf: <Stat.Neer.> <arXiv>

Abstract

We discuss two research projects in material science in which the results cannot be stated with an estimation of the error: a spectroscopic ellipsometry study aimed at determining the orientation of DNA molecules on diamond and a scanning tunneling microscopy study of platinum-induced nanowires on germanium. To investigate the reliability of the results, we apply ideas from the philosophy of models in science. Even if the studies had reported an error value, the trustworthiness of the result would not depend on that value alone.

Oct 28

Aqueous CSD approach for the growth of novel, lattice-tuned LaxCe1- xOδ epitaxial layers

Authors: Vyshnavi Narayanan, Petra Lommens, Klaartje De Buysser, Danny E.P. Vanpoucke, Ruben Huehne, Leopoldo Molina, Gustaaf Van Tendeloo , Pascal Van Der Voort, Isabel Van Driessche
Journal: J. Mater. Chem. 22, 8476-8483 (2012)
doi: 10.1039/C2JM15752G
IF(2012): 6.101
export: bibtex
pdf: <J.Mater.Chem.>

Abstract

Lanthanum–cerium oxide (LCO) films were deposited on Ni-5%W substrates by chemical solution deposition (CSD) from water-based precursors. LCO films containing different ratios of lanthanum and cerium ions (from CeO2 to La2Ce2O7) were prepared. The composition of the layers was optimized towards the formation of LCO buffer layers, lattice-matched with the superconducting YBa2Cu3Oy layer, useful for the development of coated conductors. Single, crack-free LCO layers with a thickness of up to 140 nm could be obtained in a single deposition step. The crystallinity and microstructure of these lattice-matched LCO layers were studied by X-ray diffraction techniques, RHEED and SEM. We find that only layers with thickness below 100 nm show a crystalline top surface although both thick and thin layers show good biaxial texture in XRD. On the most promising layers, AFM and (S)TEM were performed to further evaluate their morphology. The overall surface roughness varies between 3.9 and 7.5 nm, while the layers appear much more dense than the frequently used La2Zr2O7 (LZO) systems, showing much smaller nanovoids (1–2 nm) than the latter system. Their effective buffer layer action was studied using XPS. The thin LCO layers supported the growth of superconducting YBCO deposited using PLD methods.

Oct 28

Investigation of tunable buffer layers for coated superconductors:
from solid state physics to quantum chemistry

Authors: Danny E.P. Vanpoucke
Ph.D. Thesis at Ghent University, Belgium
date: October 5th, 2012
Promoters Prof. Dr. Isabel Van Driessche and Prof. Dr. Patrick Bultinck
#pages 218
export: bibtex
pdf: <PhD.Thesis>
research page with more information

Abstract

High temperature ceramic superconductors can be grown in layered structures on metallic wires to provide the mechanical flexibility required for industrial applications. To prevent the metal atoms of diffusing into the superconductor—destroying its superconductivity—buffer layers are grown between the metal substrate and the superconductor. Recently, cerium oxide has been used as such a buffer layer. However, the layer thickness of these buffer layers is limited by the formation of cracks during deposition. This behaviour has been linked to internal stress due to lattice mismatch and different thermal expansion coefficients of the substrate and the buffer layer. A simple way to reduce these mismatches is through metal doping.

In this work, we study the influence of dopants on the properties of cerium oxide through the use of ab initio calculations. Trends in the stability, lattice parameter, bulk modulus and thermal expansion coefficient of cerium oxide doped with different dopants are investigated. In addition, the influence of charge compensating oxygen vacancies is studied, and their role in the stability of heavily La-doped cerium oxide (La2Ce2O7) is presented. The use of dopants with different valences also leads to a modification of the charge distribution around the dopant sites. A way to have a more quantitative estimate of the charge transfer induced by dopants is via the introduction of the chemical concept of ‘atoms in a molecule’ into solids. This can be considered a first step in the direction of answering the experimental question: What is the charge of a given atom in a certain compound? In this work we present an implementation of this Hirshfeld method for solids, and calculate the atomic charges in doped cerium oxides.

Front cover of the PhD thesis.