S
Susan H. Kilcoyne
Researcher at University of Salford
Publications - 86
Citations - 1531
Susan H. Kilcoyne is an academic researcher from University of Salford. The author has contributed to research in topics: Neutron diffraction & Muon spin spectroscopy. The author has an hindex of 18, co-authored 86 publications receiving 1426 citations. Previous affiliations of Susan H. Kilcoyne include Rutherford Appleton Laboratory & University of St Andrews.
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Journal ArticleDOI
Structural Behavior of the Four-Layer Aurivillius-Phase Ferroelectrics SrBi4Ti4O15 and Bi5Ti3FeO15
Charles H. Hervoches,Alan Snedden,Richard Lewis Riggs,Susan H. Kilcoyne,Pascal Manuel,Philip Lightfoot +5 more
TL;DR: In this paper, the authors used powder neutron diffraction data to study the crystal structures of the four-layer Aurivillius-phase ferroelectrics Bi5Ti3FeO15 (at 251C) and SrBi4Ti4O15(at a series of temperatures up to 8001C).
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Ferritin: a model superparamagnet
Susan H. Kilcoyne,R. Cywinski +1 more
TL;DR: In this article, it was shown that ferritin follows N6el-Arrhenius behavior over eight orders of magnitude in frequency and a preexponential slowdown of 10-Us and an anisotropy energy of Ea/k B = 318 K were obtained.
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Effects of modifier additions on the thermal properties, chemical durability, oxidation state and structure of iron phosphate glasses
TL;DR: In this paper, the structure, thermal properties, chemical durability and redox state of modified iron phosphate glasses have been characterized, and it has been shown that the addition of divalent cations has a less deleterious effect on glass stability than alkali additions.
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2D mapping of texture and lattice parameters of dental enamel
TL;DR: This study is the first to map changes in preferred orientation and lattice parameter as a function of position within enamel across a whole tooth section with such high resolution.
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Dynamics in canonical spin glasses observed by muon spin depolarization.
I.A. Campbell,Anthony A. Amato,F. N. Gygax,D Herlach,A. Schenck,R. Cywinski,Susan H. Kilcoyne +6 more
TL;DR: The muon depolarization function can be analyzed to show that the temperature dependence of the strongly nonexponential form of the local spin autocorrelation function in these canonical alloys is similar to that observed in numerical simulations on Ising spin glasses.