705 research outputs found
Superconductivity in SrNi2As2 Single Crystals
The electrical resistivity \rho(T) and heat capacity C(T) on single crystals
of SrNi2As2 and EuNi2As2 are reported. While there is no evidence for a
structural transition in either compound, SrNi2As2 is found to be a bulk
superconductor at T_c=0.62 K with a Sommerfeld coefficient of \gamma= 8.7
mJ/mol K^2 and a small upper critical field H_{c2} \sim 200 Oe. No
superconductivity was found in EuNi2As2 above 0.4 K, but anomalies in \rho and
C reveal that magnetic order associated with the Eu^{2+} magnetic moments
occurs at T_m = 14 K.Comment: 8 pages, 5 figure
Ohmic contacts to n-type germanium with low specific contact resistivity
A low temperature nickel process has been developed that produces Ohmic contacts to n-type germanium with specific contact resistivities down to (2.3 ± 1.8) x10<sup>-7</sup> Ω-cm<sup>2</sup> for anneal temperatures of 340 degC. The low contact resistivity is attributed to the low resistivity NiGe phase which was identified using electron diffraction in a transmission electron microscope. Electrical results indicate that the linear Ohmic behaviour of the contact is attributed to quantum mechanical tunnelling through the Schottky barrier formed between the NiGe alloy and the heavily doped n-Ge.<p></p>
Strong coupling between magnetic and structural order parameters in SrFe2As2
X-ray and Neutron diffraction as well as muon spin relaxation and M\"ossbauer
experiments performed on SrFeAs polycrystalls confirm a sharp first
order transition at ,K corresponding to an orthorhombic phase
distortion and to a columnar antiferromagnetic Fe ordering with a propagation
vector (1,0,1), and a larger distortion and larger size of the ordered moment
than reported for BaFeAs. The structural and the magnetic order
parameters present an remarkable similarity in their temperature dependence
from down to low temperatures, showing that both phenomena are intimately
connected. Accordingly, the size of the ordered Fe moments scale with the
lattice distortion when going from SrFeAs to BaFeAs.
Full-potential band structure calculations confirm that the columnar magnetic
order and the orthorhombic lattice distortion are intrinsically tied to each
other.Comment: 10 pages, 4 figure
"HAART-Attack" bei junger HIV-Patientin
Zusammenfassung: Seit der Einführung der hochaktiven antiretroviralen Therapie (HAART) hat sich die Prognose von Patienten mit einer HIV-Infektion dramatisch verbessert. Morbidität und Mortalität HIV-assoziierter Infektionen konnten reduziert werden. Als Nebenwirkung dieser Therapie sind metabolische Komplikationen bekannt, die eine akzelerierte Atherosklerose mit Auftreten koronarer und zerebrovaskulärer Ereignisse bewirken können. Dies betrifft auch junge Patienten speziell bei Vorliegen zusätzlicher kardiovaskulärer Risikofaktoren. Wir berichten über eine 30-jährige HIV-Patientin mit einem akutem Myokardinfark
Electronic structure of BaCuAs and SrCuAs: sp-band metals
The electronic structures of ThCrSi structure BaCuAs and
SrCuAs are investigated using density functional calculations. The Cu
orbitals are located at 3 eV and higher binding energy, and are therefore
chemically inert with little contribution near the Fermi energy. These
materials are moderate density of states, sp-band metals with large Fermi
surfaces and low anisotropy
Electron Phonon Superconductivity in LaNiOP
We report first principles calculations of the electronic structure, phonon
dispersions and electron phonon coupling of LaNiPO. These calculations show
that this material can be explained as a conventional electron phonon
superconductor in contrast to the FeAs based high temperature superconductors.Comment: 5 figure
Microsatellite instability in ovarian neoplasms.
Microsatellite instability has been observed in a variety of sporadic malignancies, but its existence in sporadic ovarian cancer has been the subject of conflicting reports. We have performed a polymerase chain reaction-based microsatellite analysis of DNAs extracted from the neoplastic and non-neoplastic tissues of 41 ovarian cancer patients. Tumour-associated alterations were observed in seven (17%) of these cases. Clinicopathological correlations revealed that: (1) alterations among tumours classified as serous adenocarcinomas occurred with relatively low frequency (2/24 or 8%); (2) most of the tumours with microsatellite alterations (5/7 or 71%) were of less common histopathological types (epithelial subtypes such as endometrioid and mixed serous and mucinous, or non-epithelial types such as malignant mixed Müllerian or germ cell tumours); (3) tumour-associated alterations were observed in 3/4 (75%) of the patients with stage I tumours vs 4/37 (11%) of the patients with stage II, III and IV tumours (P = 0.01); (4) tumour-associated microsatellite instability was found to occur with similar frequencies among patients with and without clinical features suggestive of familial disease, including positive family history, early onset, or multiple primary tumours. In summary, we have observed microsatellite alterations in the neoplastic tissues of ovarian cancer patients with diverse genetic backgrounds and clinicopathological features. The pattern of alterations is consistent with the possibility that multiple mechanisms may be responsible for microsatellite instability in ovarian neoplasms
Transport properties and superconductivity in (M=La and K) with double FeAs layers
We synthesized the samples (M=La and K) with
-type structure. These samples were systematically characterized by
resistivity, thermoelectic power (TEP) and Hall coefficient ().
shows an anomaly in resistivity at about 140 K. Substitution of La
for Ba leads to a shift of the anomaly to low temperature, but no
superconducting transition is observed. Potassium doping leads to suppression
of the anomaly in resistivity and induces superconductivity at 38 K as reported
by Rotter et al.\cite{rotter}. The Hall coefficient and TEP measurements
indicate that the TEP is negative for and La-doped ,
indicating n-type carrier; while potassium doping leads to change of the sign
in and TEP. It definitely indicates p-type carrier in superconducting
with double FeAs layers, being in contrast to the case of
with single FeAs layer. A similar superconductivity is also
observed in the sample with nominal composition .Comment: 4 pages, 4 figure
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