4,569 research outputs found
Superconducting NdCeCuO Bicrystal Grain Boundary Josephson Junctions
We have studied the electric transport properties of symmetrical [001] tilt
NdCeCuO bicrystal grain boundary Josephson junctions (GBJs) fabricated on SrTiO
bicrystal substrates with misorientation angles of 24 and 36.8 degree. The
superconducting properties of the NdCeCuO-GBJs are similar to those of GBJs
fabricated from the hole doped high temperature superconductors (HTS). The
critical current density Jc decreases strongly with increasing misorientation
angle. The products of the critical current Ic and the normal resistance Rn
(about 0.1 mV at 4.2 K) are small compared to the gap voltage and fit well to
the universal scaling law (IcRn is proportional to the square root of Jc) found
for GBJs fabricated from the hole doped HTS. This suggests that the symmetry of
the order parameter, which most likely is different for the electron and the
hole doped HTS has little influence on the characteristic properties of
symmetrical [001] tilt GBJs.Comment: 3 pages, 4 figures, to be published in Applied Physics Letter
Temperature-Dependent Cathodoluminescence Spectroscopy and Microscopy as a Tool for Defect Identification in Semiconducting Ceramics: Application to BaTiO3 Ceramics
Cathodoluminescence (CL) spectroscopy and microscopy were applied to investigate the characteristic grain-boundary contrast in semiconducting ferroelectric BaTiO3 ceramics. It was shown, that chemically clean grain boundaries do not reveal any specific CL components neither in the visible nor in the infrared part of the spectrum. Instead, the contrast arises from at least two different non-radiative recombination centers present in the grain and the grain-boundary zones, respectively. Activation thresholds for these centers were determined from the temperature dependence of the integral CL signal down to 30K. The different values found explain the contrast reversal observed in BaTiO3 ceramics upon cooling. Starting from a consideration of the defect equilibria present in the samples after selected treatment cycles, we could attribute the non-radiative recombination centers to oxygen vacancies
Andreev Bound States in High Temperature Superconductors
Andreev bound states (ABS) at the surface of superconductors are expected for
any pair potential showing a sign change in different k-directions with their
spectral weight depending on the relative orientation of the surface and the
pair potential. We report on the observation of ABS in HTS employing tunneling
spectroscopy on bicrystal grain boundary Josephson junctions (GBJs). The
tunneling spectra were studied as a function of temperature and applied
magnetic field. The tunneling spectra of GBJ formed by YBCO, BSCCO, and LSCO
show a pronounced zero bias conductance peak that can be interpreted in terms
of Andreev bound states at zero energy that are expected at the surface of HTS
having a d-wave symmetry of the order parameter. In contrast, for the most
likely s-wave HTS NCCO no zero bias conductance peak was observed. Applying a
magnetic field results in a shift of spectral weight from zero to finite
energy. This shift is found to depend nonlinearly on the applied magnetic
field. Further consequences of the Andreev bound states are discussed and
experimental evidence for anomalous Meissner currents is presented.Comment: 17 pages, 10 figures, to appear in Eur. Phys. J.
К вопросу о построении универсальной тепловой диаграммы идеального газа
The application of optical coherence tomography OCT in tissue engineering facilities offers great potential for the automated detection of defects or inhomogeneities in tissue products. This non-invasive and non-destructive measurement technique enables the high speed generation of two dimensional cross sections of tissue with micron resolution. The integration of an OCT device into a tissue production facility allows the monitoring and quality control of tissue engineering products. By the selective exclusion of tissue products with insufficient quality features a high degree in production standard is guaranteed. In a first study, OCT tomograms of artificial skin equivalents were acquired and compared with microscopic images of associated histologies. As a result, a well-defined analogy of the obtained images is presented. The most common defect in terms of hole structures that occurs due to a procedural steps could be detected. Further characteristics like the topogra phy, homogeneity and layer structure was analysed. Hence, OCT provides a powerful measurement technique to monitor the quality of tissue products in automated tissue engineering facilities
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The Role of Climate Perceptions, Expectations, and Forecasts in Farmer Decision Making: The Argentine Pampas and South Florida: Final Report of an IRI Seed Grant Project
This project sought to extend previous research efforts with both a “front end” – mental models that influence climatic expectations and forecast applications – and a “back end” – the decision processes in response to climate expectations derived from farmers’ mental models and externally-provided information. Research in this report was motivated by three lines of social science inquiry: (a) the importance of subjective perception of risk, (b) differences in the impact of small-probability events when information about them is learned by personal experience over time as opposed to being provided as a statistical summary, and (c) the role of both material and nonmaterial (including cognitive and affective) goals and processes in risky decision making. This study provided multiple insights into determinants of
use of climate information related to perception and communication, and some evidence that improved presentation may overcome some of the barriers and enhance utility. We see several avenues for extending results and addressing limitations of the project’s scope and study design
Dual-path state reconstruction scheme for propagating quantum microwaves and detector noise tomography
Quantum state reconstruction involves measurement devices that are usually
described by idealized models, but not known in full detail in experiments. For
weak propagating microwaves, the detection process requires linear amplifiers
which obscure the signal with random noise. Here, we introduce a theory which
nevertheless allows one to use these devices for measuring all quadrature
moments of propagating quantum microwaves based on cross-correlations from a
dual-path amplification setup. Simultaneously, the detector noise properties
are determined, allowing for tomography. We demonstrate the feasibility of our
novel concept by proof-of-principle experiments with classical mixtures of weak
coherent microwaves.Comment: 11 pages, 3 figure
The Millennium Arecibo 21-CM Absorption Line Survey. II. Properties of the Warm and Cold Neutral Media
We use the Gaussian-fit results of Paper I to investigate the properties of
interstellar HI in the Solar neighborhood. The Warm and Cold Neutral Media (WNM
and CNM) are physically distinct components. The CNM spin temperature histogram
peaks at about 40 K. About 60% of all HI is WNM. At z=0, we derive a volume
filling fraction of about 0.50 for the WNM; this value is very rough. The
upper-limit WNM temperatures determined from line width range upward from about
500 K; a minimum of about 48% of the WNM lies in the thermally unstable region
500 to 5000 K. The WNM is a prominent constituent of the interstellar medium
and its properties depend on many factors, requiring global models that include
all relevant energy sources, of which there are many. We use Principal
Components Analysis, together with a form of least squares fitting that
accounts for errors in both the independent and dependent parameters, to
discuss the relationships among the four CNM Gaussian parameters. The spin
temperature T_s and column density N(HI) are, approximately, the two most
important eigenvectors; as such, they are sufficient, convenient, and
physically meaningful primary parameters for describing CNM clouds. The Mach
number of internal macroscopic motions for CNM clouds is typically 2.5, but
there are wide variations. We discuss the historical tau-T_s relationship in
some detail and show that it has little physical meaning. We discuss CNM
morphology using the CNM pressure known from UV stellar absorption lines.
Knowing the pressure allows us to show that CNM structures cannot be isotropic
but instead are sheetlike, with length-to-thickness aspect ratios ranging up to
about 280. We present large-scale maps of two regions where CNM lies in very
large ``blobby sheets''.Comment: Revised submission to Ap.J. Changes include: (1) correction of
turbulent Mach number in equation 16 and figure 12; the new typical value is
1.3 versus the old, incorrect value 2.5. (2) smaller typeface for the
astro-ph version to conserve paper. 60 pages, 16 figure
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