11,786 research outputs found
Precision microwave dielectric and magnetic susceptibility measurements of correlated electronic materials using superconducting cavities
We analyze microwave cavity perturbation methods, and show that the technique
is an excellent, precision method to study the dynamic magnetic and dielectric
response in the frequency range. Using superconducting cavities, we
obtain exceptionally high precision and sensitivity for measurements of
relative changes. A dynamic electromagnetic susceptibility
is introduced, which
is obtained from the measured parameters: the shift of cavity resonant
frequency and quality factor . We focus on the case of a
spherical sample placed at the center of a cylindrical cavity resonant in the
mode. Depending on the sample characteristics, the magnetic
permeability , the dielectric permittivity and
the complex conductivity can be extracted from
. A full spherical wave analysis of the cavity perturbation
is given. This analysis has led to the observation of new phenomena in novel
low dimensional materials.Comment: 16 pages, 5 figure
Meeting of the MINDS: an information retrieval research agenda
Since its inception in the late 1950s, the field of Information Retrieval (IR) has developed tools that help people find, organize, and analyze information. The key early influences on the field are well-known. Among them are H. P. Luhn's pioneering work, the development of the vector space retrieval model by Salton and his students, Cleverdon's development of the Cranfield experimental methodology, Spärck Jones' development of idf, and a series of probabilistic retrieval models by Robertson and Croft. Until the development of the WorldWideWeb (Web), IR was of greatest interest to professional information analysts such as librarians, intelligence analysts, the legal community, and the pharmaceutical industry
Non-quasiparticle microwave absorption in
We show that a non-quasiparticle charge collective mode, in parallel and
coincident with the d-wave pair conductivity, leads to a quantitative
understanding of microwave surface impedance measurements on superconducting
. The analysis suggests an inhomogeneous
charge ground state in and other HTS.Comment: 6 pages, 3 figure
The response of the Red Sea to a strong wind jet near the Tokar Gap in summer
Author Posting. © American Geophysical Union, 2013. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Journal of Geophysical Research 118 (2013): 421–434, doi:10.1029/2012JC008444.Remote sensing and in situ observations are used to investigate the ocean response to the Tokar Wind Jet in the Red Sea. The wind jet blows down the atmospheric pressure gradient through the Tokar Gap on the Sudanese coast, at about 19°N, during the summer monsoon season. It disturbs the prevailing along-sea (southeastward) winds with strong cross-sea (northeastward) winds that can last from days to weeks and reach amplitudes of 20–25 m/s. By comparing scatterometer winds with along-track and gridded sea level anomaly observations, it is observed that an intense dipolar eddy spins up in response to the wind jet. The eddy pair has a horizontal scale of 140 km. Maximum ocean surface velocities can reach 1 m/s and eddy currents extend more than 100 m into the water column. The eddy currents appear to cover the width of the sea, providing a pathway for rapid transport of marine organisms and other drifting material from one coast to the other. Interannual variability in the strength of the dipole is closely matched with variability in the strength of the wind jet. The dipole is observed to be quasi-stationary, although there is some evidence for slow eastward propagation in an idealized numerical model. Simulation of the dipole in an idealized high-resolution numerical model suggests that this is the result of self-advection.This work was supported by
award USA 00002, KSA 00011 and KSA 00011/02 made by King Abdullah
University of Science and Technology (KAUST).2013-07-3
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