550 research outputs found
Ginzburg-Landau Expansion and the Slope of the Upper Critical Field in Disordered Superconductors with Anisotropic Pairing
It is demonstrated that the slope of the upper critical field
in superconductors with -wave pairing drops rather
fast with concentration of normal impurities, while in superconductors with
anisotropic -wave pairing grows, and in the limit of
strong disorder is described by the known dependences of the theory of
``dirty'' superconductors. This allows to use the measurements of in
disordered superconductors to discriminate between these different types of
pairing in high-temperature and heavy-fermion superconductors.Comment: 7 pages, 5 figures, RevTeX 3.0, 4 Postscript figures attached;
Submitted to JETP Letter
Electric Motor & Power Source Selection for Small Aircraft Propulsion
The research conducted in this project is on electrical propulsion in aviation. A Cessna 172K aircraft with a Lycoming O-320-E2D piston engine serves as a baseline measurement. Investigation of the components required for electrical flight is performed, and components are selected based on market availability and operational performance criteria.
This research focuses on electrical propulsion in the aviation industry, and is tailored to aircraft within the General Aviation sector leading to the following research question: Can current electric motor and battery technologies conceptually support flight operations for a Cessna 172K in terms of aircraft performance criteria?
The results explore the potential for a fully-electric aircraft powered by means of batteries. A demonstrated flight is examined and the center of gravity is calculated
Classical ratchet effects in heterostructures with a lateral periodic potential
We study terahertz radiation induced ratchet currents in low dimensional
semiconductor structures with a superimposed one-dimensional lateral periodic
potential. The periodic potential is produced by etching a grating into the
sample surface or depositing metal stripes periodically on the sample top.
Microscopically, the photocurrent generation is based on the combined action of
the lateral periodic potential, verified by transport measurements, and the
in-plane modulated pumping caused by the lateral superlattice. We show that a
substantial part of the total current is caused by the polarization-independent
Seebeck ratchet effect. In addition, polarization-dependent photocurrents
occur, which we interpret in terms of their underlying microscopical
mechanisms. As a result, the class of ratchet systems needs to be extended by
linear and circular ratchets, sensitive to linear and circular polarizations of
the driving electro-magnetic force.Comment: 11 pages, 9 figures, 2 column
Experimental determination of carbonate-associated sulfate δ^(34)S in planktonic foraminifera shells
Understanding the coupling of oxygen, carbon, and sulfur cycles in the past is critical for reconstructing the history of biogeochemical cycles, paleoclimatic variations, and oceanic chemistry. The abundance of sulfur isotopes (δ^(34)S) in sulfate from ancient marine carbonates, or carbonate-associated sulfate (CAS), is commonly used, along with other archives (mainly evaporites and barite), to estimate the δ^(34)S of seawater throughout Earth history. Analyses of CAS from hand-picked foraminifera are potentially valuable because this group of organisms is used in numerous paleoceanographic studies. They could provide coupled, high-resolution records of δ^(13)C, δ^(18)O, and δ^(34)S isotopic changes directly linked to orbitally tuned records of climate change through the Cenozoic. Such measurements have not previously been possible due to limitations of sensitivity in conventional IRMS-based techniques. However, the recent development of CAS analysis by multicollector inductively coupled plasma mass spectrometry (MC-ICP-MS) now allows us to work on samples containing just a few nmol of sulfur with accuracy for δ^(34)S values approaching 0.1‰ and, consequently, to analyze hand-picked samples of foraminifera shells. Here we report the results of culture experiments with the planktonic species Orbulina universa, that establish a shell:seawater δ^(34)S calibration for future applications to the fossil record. Our new method uses <650 μg of carbonate (∼15 shells) per analysis. The results show that S isotopes are fractionated consistently by −1‰ between seawater and O. universa tests. We also demonstrate that O. universa faithfully records the [SO^(2−)_(4)]/[Ca^(2+)] ratio of the seawater in which it grew
Exploiting the Ref-1-APE1 node in cancer signaling and other diseases: from bench to clinic
Reduction-oxidation factor 1-apurinic/apyrimidinic endonuclease (Ref-1/APE1) is a critical node in tumor cells, both as a redox regulator of transcription factor activation and as part of the DNA damage response. As a redox signaling protein, Ref-1/APE1 enhances the transcriptional activity of STAT3, HIF-1α, nuclear factor kappa B, and other transcription factors to promote growth, migration, and survival in tumor cells as well as inflammation and angiogenesis in the tumor microenvironment. Ref-1/APE1 is activated in a variety of cancers, including prostate, colon, pancreatic, ovarian, lung and leukemias, leading to increased aggressiveness. Transcription factors downstream of Ref-1/APE1 are key contributors to many cancers, and Ref-1/APE1 redox signaling inhibition slows growth and progression in a number of tumor types. Ref-1/APE1 inhibition is also highly effective when paired with other drugs, including standard-of-care therapies and therapies targeting pathways affected by Ref-1/APE1 redox signaling. Additionally, Ref-1/APE1 plays a role in a variety of other indications, such as retinopathy, inflammation, and neuropathy. In this review, we discuss the functional consequences of activation of the Ref-1/APE1 node in cancer and other diseases, as well as potential therapies targeting Ref-1/APE1 and related pathways in relevant diseases. APX3330, a novel oral anticancer agent and the first drug to target Ref-1/APE1 for cancer is entering clinical trials and will be explored in various cancers and other diseases bringing bench discoveries to the clinic
Effect of non-magnetic impurities on the gap of a superconductor as seen by angle-resolved photoemission
An analysis of angle-resolved photoemission (ARPES) experiments in the
superconducting state of the high \tc copper-oxides is presented. It is based
on a phenomenological weak-coupling BCS model which incorporates the
experimental normal state dispersion extracted from ARPES, and non-magnetic
impurity scattering in the presence of a order parameter (OP). It
is shown, that already in the pure case, the broadening by finite momentum
resolution of the analyzer leads to a finite region of apparent `gaplessness'
around the true node of the OP. Non-magnetic impurities further amplify this
effect by introducing additional spectral weight around zero frequency. At
sufficiently large impurity concentrations , this results
in an extended region of `gaplessness' up to ( the
angle on the Fermi surface) around the true node for a large range of moderate
to strong impurity potential strengths. Different ways to identify the presence
of impurity scattering in the ARPES spectra are proposed.Comment: 8 pages uuencoded gzipped Postscrip
Conductivity of CuO-Chains: Disorder versus Electron-Phonon Coupling
The optical conductivity of the CuO-chains, a subsystem of the 1-2-3
materials, is dominated by a broad peak in the mid-infrared (eV), and a slowly falling high-frequency tail. The 1D --model is
proposed as the relevant low-energy Hamiltonian describing the intrinsic
electronic structure of the CuO-chains. However, due to charge-spin
decoupling, this model alone cannot reproduce the observed \sw. We consider
two additional scattering mechanisms: (i) Disregarding the not so crucial spin
degrees of freedom, the inclusion of strong potential disorder yields excellent
agreement with experiment, but suffers from the unreasonable value of the
disorder strength necessary for the fit. (ii) Moderately strong polaronic
electron-phonon coupling to the mode involving Cu(1)-O(4) stretching, can be
modeled within a 1D Holstein Hamiltonian of spinless fermions. Using a
variational approximation for the phonon Hilbert space, we diagonalize the
Hamiltonian exactly on finite lattices. As a result of the experimental hole
density , the chains can exhibit strong charge-density-wave (CDW)
correlations, driven by phonon-mediated polaron-polaron interactions. In the
vicinity of half filling, charge motion is identified as arising from moving
domain walls, \ie defects in the CDW. Incorporating the effect of vacancy
disorder by choosing open boundary conditions, good agreement with the
experimental spectra is found. In particular, a high-frequency tail arises as a
consequence of the polaron-polaron interactions.Comment: 42 pages, ETH-TH/93-31 (Postscript
Friedel oscillations induced by non-magnetic impurities in the two-dimensional Hubbard model
We study the interplay of correlations and disorder using an unrestricted
Slave-Boson technique in real space. Within the saddle-point approximation, we
find Friedel oscillations of the charge density in the vicinity of a
nonmagnetic impurity, in agreement with numerical simulations. The
corresponding amplitudes are suppressed by repulsive interactions, while
attractive correlations lead to a charge-density-wave enhancement. In addition,
we investigate the spatial dependence of the local magnetic moment and the
formation of a magnetic state at the impurity site.Comment: 9 pages, RevTeX, includes 8 figure
Coupling to optical phonons in the one-dimensional t-J model: Effects on superconducting fluctuations and phase separation
The one-dimensional (1D) - Holstein model is studied by exact
diagonalization of finite rings using a variational approximation for the
phonon states. Due to renormalization effects induced by the phonons, for
intermediate electron-phonon coupling, the phase separation (PS) boundary, and
with it the region of dominating superconducting fluctuations is shifted
substantially to smaller values of as compared to the pure - model.
Superconducting correlations are weakened through charge density wave
interactions mediated by the phonons. Possible consequences for the high
oxides are discussed.Comment: 4 pages, Latex2
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