Microwave Harmonic Emission in MgB2 Superconductor: Comparison with YBaCuO

We report results of microwave second-harmonic generation in ceramic samples of MgB2, prepared by different methods. The SH signal has been investigated as a function of the temperature and the static magnetic field. The results are discussed in the framework of models reported in the literature. We show that the peculiarities of the SH signal are related to the specific properties of the sample. A comparison with the results obtained in ceramic and crystalline YBa(2)Cu(3)O(7) shows that the second-harmonic emission in MgB2 is weaker than that observed in ceramic YBa(2)Cu(3)O(7).Comment: 13 pages, 6 figures; Proceedings of Third Workshop on Metamaterials and Special Materials for Electromagnetic Applications and TLC (Rome, 30-31 March, 2006

Frequency dependence of the microwave surface resistance of MgB2 by coaxial cavity resonator

We report on the microwave (mw) properties of a cylindrical MgB2 rod prepared by the reactive liquid Mg infiltration technology. The MgB2 rod, 94.3 mm long, is used as inner conductor of a coaxial cavity having a Cu tube as external conductor. By analyzing the resonance curves of the cavity in the different resonant modes and at different temperatures, we have determined the temperature dependence of the mw surface resistance, Rs, of the MgB2 material, at fixed frequencies, and the frequency dependence of Rs, at fixed temperatures. Our results show that the Rs(f) curves follow a f^n law, where n decreases on increasing the temperature, starting from n=2, at T=4.2 K, down to n=0.7 at T>Tc. The double gap nature of MgB2 manifests itself in the presence of a wide low-T tail in the R(T) curves, which can be ascribed to the quasiparticles thermally excited through the pi gap even at relatively low temperatures

Microwave Response of Coaxial Cavities Made of Bulk Magnesium Diboride

We report on the microwave properties of coaxial cavities built by using bulk MgB2 superconductor prepared by reactive liquid Mg infiltration technology. We have assembled a homogeneous cavity by using an outer MgB2 cylinder and an inner MgB2 rod and a hybrid cavity by using an outer copper cylinder and the same MgB2 rod as inner conductor. By the analysis of the resonance curves, in the different resonant modes, we have determined the microwave surface resistance Rs of the MgB2 materials as a function of the temperature and the frequency, in the absence of dc magnetic fields. At T=4.2 K and f ≈ 2.5 GHz, by an mw pulsed technique, we have determined the quality factor of the homogeneous cavity as a function of the input power up to a maximum level of about 40 dBm (corresponding to a maximum peak magnetic field of about 100 Oe). Contrary to what occurs in many films, Rs of the MgB2 material used does not exhibit visible variations up to an input power level of about 10 dBm and varies less than a factor of 2 on further increasing the input power of 30 dB

Active Degassing of Deeply Sourced Fluids in Central Europe: New Evidences From a Geochemical Study in Serbia

We report on the results of an extensive geochemical survey of fluids released in the Vardar zone (central-western Serbia), a mega-suture zone at the boundary between Eurasia and Africa plates. Thirty-one bubbling gas samples are investigated for their chemical and isotopic compositions (He, C, Ar) and cluster into three distinct groups (CO2-dominated, N2-dominated, and CH4-dominated) based on the dominant gas species. The measured He isotope ratios range from 0.08 to 1.19 Ra (where Ra is the atmospheric ratio), and reveal for the first time the presence of a minor (<20%) but detectable regional mantle-derived component in Serbia. δ13C values range from −20.2‰ to −0.1‰ (versus PDB), with the more negative compositions observed in N2-dominated samples. The carbon-helium relationship indicates that these negative δ13C compositions could be due to isotopic fractionation processes during CO2 dissolution into groundwater. In contrast, CO2-rich samples reflect mixing between crustal and mantle-derived CO2. Our estimated mantle-derived He flux (9.0 × 109 atoms m−2 s−1) is up to 2 orders of magnitude higher than the typical fluxes in stable continental areas, suggesting a structural/tectonic setting favoring the migration of deep-mantle fluids through the crust

Systemic lupus erythemathosus between clinical practice and the laboratory: state of the art and new findings on anti-DNA autoantibodies

Identification of autoantibodies directed against nuclear antigens is a very important finding in the assessment of autoimmune rheumatic diseases. In particular, the anti-DNA autoantibodies have assumed a fundamental importance, both speculative and clinical, in the study of the systemic lupus erythemathous. The aim of the present review is to focalize on anti-DNA the mechanisms of both induction and production of anti-DNA autoantibodies, pathophysiologic and diagnostic and clinical aspects. For this purpose, forty years of studies on this topic have been reviewed. Aspects on different conformational shapes of double-stranded DNA have been discussed such as related pathogenetic and diagnostic ones. Finally, the review has dealt with experimental therapies, focusing on both animal models and the most recent clinical trials according to Evidence Based Medicine

NIR SPECTROSCOPY TO EXPLORE WATER STRUCTURE MODIFICATION INDUCED BY FILTRATION PROCESSES

Studies on very diluted solutions (i.e. containing solutes in concentration below 10-7 M) and pure water subjected to physical treatments have recently highlighted that the structure of water is still an open research field. Although it is well known that the formation of hydrogen bonds is responsible of the great part of peculiar properties of water, as its very high boiling point or its density variation with temperature, results, different from expected, obtained on extremely dilute solutions, perturbed by mechanical treatments and analyzed with calorimetric technique and the formation of nanoclusters obtained by evaporation at room temperature and atmospheric pressure of solutions of NaCl in concentration 10-7 M highlight that not all that concern water is yet clear.In the last years, Near InfraRed (NIR) spectroscopy has been applied to monitor changes in water structure induced by solutes and/or temperature variation with a so great success to suggest the creation of a new research field called Aquaphotomics. So, this technique seems to be the most accredited to approach the study the formation of nanostructures in water. The present study was focused on the study of variations induced by filtration process on pure water analyzed by chemometric analysis of NIR spectra corresponding to the different conditions. In fact, it has been observed that conductivity varies more than expected by sole natural contamination level of distilled water produced by its contact with the ambient atmosphere, and it may be ascribed to the formation of aqueous nanostructures. This hypothesis has been yet recently suggested by the Nobel Laureate Luc Montagnier to explain the effects observed on water undergone filtration and sterilization processes, and by Vittorio Elia who suggested the formation of dissipative structures

A new approach to calibrate the thermal conditions in space charge measurements on HVDC mini-cables

The PEA method is currently widespread used for space charge measurements in mini-cables in order to qualify the behavior of semicon-dielectric-semicon compound under electric and thermal stress. The main goal of this research is to quantitatively evaluate the relationship between the thermal boundary conditions applied to cables or mini-cables and the maximum local electric field due to the accumulated space charge. Hitherto, several research groups have obtained thermal gradients over the dielectric's radius heating the conductor by Joule effect due to an induced current. In this paper, a numerical approach is offered to calibrate the heat exchange boundary conditions to apply to a sample during PEA space charge measurements. This method aims to reproduce in mini-cables the same operative electric field levels reached in full size HVDC cables