363 research outputs found
Electronic transport, structure, and energetics of endohedral Gd@C82 metallofullerenes
Electronic structure and transport properties of the fullerene C and
the metallofullerene Gd@C are investigated with density functional
theory and the Landauer-Buttiker formalism. The ground state structure of
Gd@C is found to have the Gd atom below the C-C bond on the C
molecular axis of C. Insertion of Gd into C deforms the carbon
chain in the vicinity of the Gd atoms. Significant overlap of the electron
distribution is found between Gd and the C cage, with the transferred Gd
electron density localized mainly on the nearest carbon atoms. This charge
localization reduces some of the conducting channels for the transport, causing
a reduction in the conductivity of the Gd@C species relative to the
empty C molecule. The electron transport across the metallofullerene is
found to be insensitive to the spin state of the Gd atom.Comment: 13 pages, 7 figures, submitted Nano Let
Ancient DNA Resolves Identity and Phylogeny of New Zealand's Extinct and Living Quail (Coturnix sp.)
BACKGROUND: The New Zealand quail, Coturnix novaezealandiae, was widespread throughout New Zealand until its rapid extinction in the 1870's. To date, confusion continues to exist concerning the identity of C. novaezealandiae and its phylogenetic relationship to Coturnix species in neighbouring Australia, two of which, C. ypsilophora and C. pectoralis, were introduced into New Zealand as game birds. The Australian brown quail, C. ypsilophora, was the only species thought to establish with current populations distributed mainly in the northern part of the North Island of New Zealand. Owing to the similarities between C. ypsilophora, C. pectoralis, and C. novaezealandiae, uncertainty has arisen over whether the New Zealand quail is indeed extinct, with suggestions that remnant populations of C. novaezealandiae may have survived on offshore islands. METHODOLOGY/PRINCIPAL FINDINGS: Using fresh and historical samples of Coturnix sp. from New Zealand and Australia, DNA analysis of selected mitochondrial regions was carried out to determine phylogenetic relationships and species status. Results show that Coturnix sp. specimens from the New Zealand mainland and offshore island Tiritiri Matangi are not the New Zealand quail but are genetically identical to C. ypsilophora from Australia and can be classified as the same species. Furthermore, cytochrome b and COI barcoding analysis of the New Zealand quail and Australia's C. pectoralis, often confused in museum collections, show that they are indeed separate species that diverged approximately 5 million years ago (mya). Gross morphological analysis of these birds suggests a parallel loss of sustained flight with very little change in other phenotypic characters such as plumage or skeletal structure. CONCLUSION/SIGNIFICANCE: Ancient DNA has proved invaluable for the detailed analysis and identification of extinct and morphologically cryptic taxa such as that of quail and can provide insights into the timing of evolutionary changes that influence morphology
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Consistency and Standardization of Color in Medical Imaging: a Consensus Report
This article summarizes the consensus reached at the Summit on Color in Medical Imaging held at the Food and Drug Administration (FDA) on May 8–9, 2013, co-sponsored by the FDA and ICC (International Color Consortium). The purpose of the meeting was to gather information on how color is currently handled by medical imaging systems to identify areas where there is a need for improvement, to define objective requirements, and to facilitate consensus development of best practices. Participants were asked to identify areas of concern and unmet needs. This summary documents the topics that were discussed at the meeting and recommendations that were made by the participants. Key areas identified where improvements in color would provide immediate tangible benefits were those of digital microscopy, telemedicine, medical photography (particularly ophthalmic and dental photography), and display calibration. Work in these and other related areas has been started within several professional groups, including the creation of the ICC Medical Imaging Working Group
Electronic Structure of B-2p State in AlB2 Single Crystal: Direct Observation ofp\sigma and p\pi Density of States
X-ray emission (XES) and absorption (XAS) spectra near the B- edge were
measured on single-crystalline AlB compound which is an isostructural
diboride of superconducting MgB. The partial density of states (PDOS) of
B-2 and orbitals were derived from the polarization dependence
of XES and XAS spectra. There are considerable amounts of PDOS near the Fermi
energy in AlB similarly to that in MgB, but there are almost no PDOS in
orbitals of AlB near the Fermi energy, i.e., a pseudo-gap in
state and a broad metallic state in state are observed. The
present result indirectly supports scenarios that the holes play an
important role in the occurrence of superconductivity in MgB. The overall
features of PDOS were found to be in good agreement with the result of band
calculation of AlB, but a small discrepancy in the Fermi energy is
observed, which is attributed to the Al vacancy in the compounds, i.e., the
estimated concentration is AlB.Comment: LaTeX files and 4 eps figures, to be published in J. Phys. Soc. Jp
Interplay of thermal and non-thermal effects in x-ray-induced ultrafast melting
X-ray laser-induced structural changes in silicon undergoing femtosecond
melting have been investigated by using an x-ray pump-x-ray probe technique.
The experimental results for different initial sample temperatures reveal that
the onset time and the speed of the atomic disordering are independent of the
initial temperature, suggesting that equilibrium atomic motion in the initial
state does not play a pivotal role in the x-ray-induced ultrafast melting. By
comparing the observed time-dependence of the atomic disordering and the
dedicated theoretical simulations, we interpret that the energy transfer from
the excited electrons to ions via electron-ion coupling (thermal effect) as
well as a strong modification of the interatomic potential due to electron
excitations (non-thermal effect) trigger the ultrafast atomic disordering. Our
finding of the interplay of thermal and non-thermal effects in the
x-ray-induced melting demonstrates that accurate modeling of intense x-ray
interactions with matter is essential to ensure a correct interpretation of
experiments using intense x-ray laser pulses
MgB2 single crystals: high pressure growth and anisotropic properties
Single crystals of MgB2 with a size up to 1.5x0.9x0.2 mm3 have been grown
with a high pressure cubic anvil technique. The crystal growth process is very
peculiar and involves an intermediate nitride, namely MgNB9. Single crystals of
BN and MgB2 grow simultaneously by a peritectic decomposition of MgNB9.
Magnetic measurements in fields of 1-5 Oe show sharp transitions to the
superconducting state at 37-38.6 K with width of ~0.5 K. The high quality of
the crystals allowed the accurate determination of magnetic, transport and
optical properties as well as scanning tunnelling spectroscopy (STS) and
decoration studies. Investigations of crystals with torque magnetometry show
that Hc2//c is very low (24 kOe at 15 K), while Hc2//ab increases up to 140 kOe
at 15 K. The upper critical field anisotropy gamma = Hc2//ab/ Hc2//c was found
to be temperature dependent (decreasing from 6 at 15 K to 2.8 at 35 K). The
effective anisotropy gamma_eff, as calculated from reversible torque data near
Tc, is field dependent (increasing roughly linearly from 2 in zero field to 3.7
in 10 kOe). The temperature and field dependence of the anisotropy can be
related to the double gap structure of MgB2 with a large two-dimensional gap
and small three-dimensional gap, the latter being rapidly suppressed in a
magnetic field. Torque magnetometry investigations show a pronounced peak
effect, indicating an order-disorder transition of vortex matter. Decoration
experiments and STS visualise a hexagonal vortex lattice. STS spectra evidence
two gaps (3 meV/6 meV) with direction dependent weight. Magneto-optic
investigations with H//c show a clear signature of the smaller of the two gaps,
disappearing in fields higher than Hc2//c.Comment: 17 pages pdf only, 15 figures integrated (higher resolution
photographs available on request); submitted to Supercond. Sci. Technol.
(Proceedings of Boromag conference
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Improved crystal structure solution from powder diffraction data by the use of conformational information
The effect of introducing conformational information to the DASH implementation of crystal structure determination from powder diffraction data is investigated using 51 crystal structures, with the aim of allowing increasingly complex crystal structures to be solved more easily. The findings confirm that conformational information derived from the Cambridge Structural Database is indeed of value, considerably increasing the chances of obtaining a successful structure determination. Its routine use is therefore encouraged
Congenital nephrotic syndrome
Congenital nephrotic syndrome (CNS) is a rare kidney disorder characterized by heavy proteinuria, hypoproteinemia, and edema starting soon after birth. The majority of cases are caused by genetic defects in the components of the glomerular filtration barrier, especially nephrin and podocin. CNS may also be a part of a more generalized syndrome or caused by a perinatal infection. Immunosuppressive medication is not helpful in the genetic forms of CNS, and kidney transplantation is the only curative therapy. Before the operation, management of these infants largely depends on the magnitude of proteinuria. In severe cases, daily albumin infusions are required to prevent life-threatening edema. The therapy also includes hypercaloric diet, thyroxin and mineral substitution, prevention of thrombotic episodes, and prompt management of infectious complications. The outcome of CNS patients without major extrarenal manifestations is comparable with other patient groups after kidney transplantation
Validation of ozone data from the Superconducting Submillimeter-Wave Limb-Emission Sounder (SMILES)
The Superconducting Submillimeter-Wave Limb-Emission Sounder (SMILES) onboard the International Space Station provided global measurements of ozone profiles in the middle atmosphere from 12 October 2009 to 21 April 2010. We present validation studies of the SMILES version 2.1 ozone product based on coincidence statistics with satellite observations and outputs of chemistry and transport models (CTMs). Comparisons of the stratospheric ozone with correlative data show agreements that are generally within 10%. In the mesosphere, the agreement is also good and better than 30% even at a high altitude of 73km, and the SMILES measurements with their local time coverage also capture the diurnal variability very well. The recommended altitude range for scientific use is from 16 to 73km. We note that the SMILES ozone values for altitude above 26km are smaller than some of the correlative satellite datasets; conversely the SMILES values in the lower stratosphere tend to be larger than correlative data, particularly in the tropics, with less than 8% difference below similar to 24km. The larger values in the lower stratosphere are probably due to departure of retrieval results between two detection bands at altitudes below 28km; it is similar to 3% at 24km and is increasing rapidly down below
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