2,787 research outputs found
A microscopic model for spiral ordering along (110) on the MnSi lattice
We study an extended Heisenberg model on the MnSi lattice. In the cubic B20
crystal structure of MnSi, Mn atoms form lattices of of corner-shared
equilateral triangles. We find an ubiquitous spiral ordering along (110) for J1
0, where J1, J2, and J3 are 1st, 2nd and 3rd nearest neighbor
Heisenberg interactions, respectively. While the ordering direction of (110) is
reasonably robust to the presence of the Dzyaloshinskii-Moriya interaction, it
can be shifted to the (111) direction with the introduction of a magnetic
anisotropy term for small J2/|J1|. We discuss the possible relevance of these
results to the partially ordered state recently reported in MnSi.Comment: 5 pages, 4 figure
Degree of Cajal-Retzius cell mislocalisation correlates with the severity of structural brain defects in mouse models of dystroglycanopathy
The secondary dystroglycanopathies are characterized by the hypoglycosylation of alpha dystroglycan, and are associated with mutations in at least 18 genes that act on the glycosylation of this cell surface receptor rather than the Dag1 gene itself. At the severe end of the disease spectrum, there are substantial structural brain defects, the most striking of which is often cobblestone lissencephaly. The aim of this study was to determine the gene‐specific aspects of the dystroglycanopathy brain phenotype through a detailed investigation of the structural brain defects present at birth in three mouse models of dystroglycanopathy—the FKRPKD, which has an 80% reduction in Fkrp transcript levels; the Pomgnt1null, which carries a deletion of exons 7–16 of the Pomgnt1 gene; and the Largemyd mouse, which carries a deletion of exons 5–7 of the Large gene. We show a rostrocaudal and mediolateral gradient in the severity of brain lesions in FKRPKD, and to a lesser extent Pomgnt1null mice. Furthermore, the mislocalization of Cajal–Retzius cells is correlated with the gradient of these lesions and the severity of the brain phenotype in these models. Overall these observations implicate gene‐specific differences in the pathogenesis of brain lesions in this group of disorders
Polariton states bound to defects in GaAs/AlAs planar microcavities
We report on polariton states bound to defects in planar GaAs/AlAs
microcavities grown by molecular beam epitaxy. The defect types relevant for
the spatial polariton dynamics in these structures are cross-hatch misfit
dislocations, and point-like defects extended over several micrometers. We
attribute the latter defects to Ga droplets emitted occasionally by the Ga cell
during the growth. These defects, also known as oval defects, result in a
dome-like local modulation of surface, which is translated into the cavity
structure and leads to a lateral modulation of the cavity polariton energy of
up to 15\,meV. The resulting spatially localized potential landscape for the
in-plane polariton motion creates a series of bound states. These states were
characterized by spectrally resolved transmission imaging in real and
reciprocal space, and reveal the spatial potential created by the defects.
Interestingly, the defect states exhibit long lifetimes in the 10ps range,
which we attribute to a spatially smooth confinement potential
Integration of a resonant tunneling diode and an optical communications laser
We report on the first integration of a resonant tunneling diode and an optical communications laser operating at around 1.5 /spl μm. We demonstrate its low-frequency bistable operation and model its electrical characteristics
Use and abuse of statistics in tobacco industry-funded research on standardised packaging
In this commentary we consider the validity of tobacco industry-funded research on the effects of standardised packaging in Australia. As the first country to introduce standardised packs, Australia is closely watched, and Philip Morris International has recently funded two studies into the impact of the measure on smoking prevalence. Both of these papers are flawed in conception as well as design but have nonetheless been widely publicised as cautionary tales against standardised pack legislation. Specifically, we focus on the low statistical significance of the analytical methods used and the assumption that standardised packaging should have an immediate large impact on smoking prevalence
A Review of Rail Research Relevant to the Case for Increased Rail Investment.
The purpose of this paper is to provide a review of rail transport research which has a bearing on the case of increased rail investment. The paper focuses on research which has been conducted on the demand for rail travel, both passenger and freight, rather than the supply side or new technology. The aim is to identify where we believe there to be significant gaps in knowledge and key areas in which further research is required are outlined. The paper deals with the following issues: the investment and funding mechanisms that currently exist for rail; the extent to which changes in the fare and service quality of rail affect the demand for rail travel and also the demand for air and road travel; the environmental and congestion benefits of diverting traffic from road and air to rail; and the links between rail investment and economic development. Where appropriate, the discussion considers inter-urban travel, suburban travel, light rail transit and freight transport separately
Concentration dependent interdiffusion in InGaAs/GaAs as evidenced by high resolution x-ray diffraction and photoluminescence spectroscopy
Article copyright 2005 American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics. The article appeared in Journal of Applied Physics 97, 013536 (2005) and may be found at
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