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43 results on '"Luponio, C."'

1. Zero-Dimensional Superconducting Fluctuations and Fluctuating Diamagnetism in Lead Nanoparticles

Author

Bernardi, E., Lascialfari, A., Rigamonti, A., Romano', L., Iannotti, V., Ausanio, G., and Luponio, C.

Subjects
Condensed Matter - Superconductivity
Abstract

High resolution SQUID magnetization measurements in lead nanoparticles are used to study the fluctuating diamagnetism in zero-dimensional condition, namely for particle size d lesser than the coherence length. The diamagnetic magnetization Mdia (H, T= const) as a function of the field H at constant temperature is reported in the critical region and compared with the behaviour in the temperature range where the first-order fluctuation correction is expected to hold. The magnetization curves are analysed in the framework of exact fluctuation theories based on the Ginzburg-Landau functional for the coherence length much greater than d. The role of the upturn field Hup where Mdia reverses the field dependence is discussed and its relevance for the study of the fluctuating diamagnetism, particularly in the critical region where the first-order fluctuation correction breaks down, is pointed out. The size and temperature dependence of Hup is theoretically derived and compared to the experimental data. The relevance and the magnetization curves for non-evanescent field and of the upturn field for the study of the fluctuating diamagnetism above the superconducting transition temperature is emphasized.

Published
2006
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10. Hybrid waves in magnetostrictive ferromagnetics

Author

Lanotte, L. and Luponio, C.

Subjects
Ferromagnetism -- Research, Electromagnetic waves -- Research, Acoustic surface waves -- Research, Physics
Abstract

The characteristics of transversal quasiacoustic and quasielectromagnetic waves produced by interaction between acoustic and electromagnetic fields in a magnetostrictive ferromagnet were investigated. The results showed that the hybrid waves coincided in a mixed propagation mode at a given conductivity value. This mixed propagation mode exhibited a velocity which was not influenced by the wave number.

Published
1993

11. Electromagnetic perturbation on acoustic shear waves generated by magnetostriction.

Author

Lanotte, L., Luponio, C., and Porreca, F.

Subjects
*ELECTROMAGNETIC waves, *SHEAR waves, *RADIO frequency, *PIEZOELECTRIC transducers, *ELECTROMAGNETISM
Abstract

Presents a study which emphasized the problem of coupling between mechanical shear waves and electromagnetic waves. Discussion on electromagnetic disturbance behavior as a function of the bias; Use of piezoelectric transducers to detect radio frequency signals; Theory on the piezomagnetic constitutive relations.

Published
1991
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13. Thermal and mechanical ageing of the elastomagnetic core material

Author

Hison, C., Giovanni AUSANIO, Iannotti, V., Luciani, G., Luponio, C., Lanotte, L., Hison, C., Ausanio, Giovanni, Iannotti, Vincenzo, Luciani, G., Luponio, C., Lanotte, Luciano, C., Hison, G., Ausanio, V., Iannott, Luciani, Giuseppina, Luponio, Cesare, and L., Lanotte

Subjects
SILICONE MATRIX, COMPOSITE-MATERIAL, mechanical ageing, elastomagnetic composite, thermal stability, NI MICROPARTICLES, ELASTIC MAGNETS
Abstract

The stability under dynamic mechanical solicitation and with the temperature of the elastomagnetic composite made of Sm2Co7 particles embedded in a silicone matrix is investigated. The thermal stability was examined by DSC measurements. The thermal (up to congruent to 340 degrees C) and mechanical ageing effects on the material elastomagnetic response were investigated by measuring the amplitude, V-0, of the electromotive force induced in a pick-up coil during the dynamic mechanical solicitation of the sample. It was found that for the whole investigation range of temperatures, the V, dependence on the frequency, v, and amplitude, D, of the externally induced deformation is linear and its amplitude is not changing for treatments up to 150 degrees C; for higher temperature treatments the response amplitude is decreasing. The analysis of the response signal (registered at 1 h intervals) after dynamic mechanical solicitation carried out during 48 h, shows the excellent output reliability and no decrease in amplitude with time.

Published
2006

23. On-line Physics Laboratory Experiments: Research Activities in the LABNET2 Project

Author

D'ANTONIO S., LUPONIO C., TAMASI G., RUSSO, STEFANO, E. Wagner, A. Szűcs, D'Antonio, S., Luponio, C., Russo, Stefano, and Tamasi, G.

Subjects
E-learning
Abstract

The recent growth of interest of teachers to introduce the use of computer as educational tool encourages the development of didactic environments so that the use of computer classrooms and the resources of the web become daily tools. An aspect of distance education not currently supported by most support environments – commercial and experimental – is related to the possibility of performing laboratory exercises remotely. In the present paper, we illustrate on-going research activities and experimentations within the project LABNET2 of the Italian Interuniversity Computer Science Consortium (CINI) in the National Laboratory for Multimedia and Telematics (ITEM) in Naples. ITEM runs a set of projects, called LABNET, for the experimentation of technologies of remote access to laboratories. Such projects foresee the creation of laboratories, into which real technical-scientific equipments are remotely accessible to teachers and students. Such objective is achieved through the realization of a suitable computer and network infrastructure and the development of necessary software applications. The research activities described here are aimed at remote management of a physics laboratory. By taking advantage of telematics and multimedia technologies, some experiments available in the Physics laboratory (called LAFIDIN) of the Engineering Faculty of the Federico II University of Naples have been made controllable remotely over the Internet. The remote management allows students to perform experimentations, control equipments and visualize the results of the experiments as if these were performed locally. The access to a real laboratory, even if realized through remote control, aims at a greater didactic effectiveness when compared to conventional techniques of virtual laboratories, supported by advanced environments for distance learning. In this paper, we discuss also results of trials run in cooperation with 10 high school institutes of the district of Naples and Avellino. Students performed physics experiments on remote equipments through Internet connection from their schools. During the execution of the experiments, students had the possibility to have a complete vision of what happens in the laboratory through a remote controlled video camera. The camera helps to improve the pedagogical effectiveness of the experiments, remarking the difference with computer simulated experiments.

Published
2002

24. State of the art and development trends of novel nanostructured elastomagnetic composites

Author

Lanotte, L., Giovanni AUSANIO, Hison, C., Iannotti, V., Luponio, C., Luponio Jr, C., Lanotte, Luciano, Ausanio, Giovanni, C., Hison, Iannotti, Vincenzo, C., Luponio, and C., LUPONIO Jr

Subjects
Strain-electric conductivity coupling, Heterogeneous composite, Strain-magnetisation coupling
Abstract

The coupling between elastic and magnetic properties of composite materials made of magnetic particles uniformly dispersed into an elastic matrix was revised. The influence of particles content and size was considered. A unified simple model of the direct and inverse elastomagnetic effect was furnished explaining the experimental results in different experimental conditions. Some applications of elastomagnetic materials in both sensors and actuators are reported and their potentiality is discussed. The correlation between strain and electric conduction in this kind of materials is also presented and the first experimental results on this topic are reported.

Published
2004

34. Potentialities and limits of magnetoelasticity applications for noise detection and attenuation

Author

Giovanni AUSANIO, Hison, C., Iannotti, V., Luponio, C., Lanotte, L., Ausanio, G., Hison, C., Iannotti, V., Luponio, C., and Lanotte, L.

Abstract

Starting from the basic phenomena of direct and inverse magnetostriction, the status of art of actual application and material development are critically reviewed. Important developments in noise detection and control are pointed out and several innovations are also reported. On the other hand, the crucial improvements to be performed in material performance, devices techniques and modeling are clearly discussed. In particular the first characterization of a new device, based on a novel composite material made of magnetic particles dispersed in an elastic matrix, able of self-attenuation of vibrations also at the resonance frequency, is reported and discussed. Since some problems in vibration control are related to the induction of a spontaneous acoustic mode in the core of the device used for the oscillations detection and/or attenuation, this new system appears to be very interesting for the researchers community involved in noise control and monitoring.

42. Time dependence of magnetization and strain in Terfenol

Author

Vincenzo Iannotti, Ennio Bonetti, Luciano Lanotte, C. Luponio, Giovanni Ausanio, Luca Pasquini, Ausanio, Giovanni, Bonetti, E, Iannotti, V, Lanotte, L, Luponio, C, Pasquini, L., G., Ausanio, E., Bonetti, Iannotti, Vincenzo, Lanotte, Luciano, C., Luponio, and L., Pasquini

Subjects
Materials science, Field (physics), Strain (chemistry), Condensed matter physics, Viscoelastic strain, Magnetostriction, Terfenol, Condensed Matter Physics, Viscoelasticity, Electronic, Optical and Magnetic Materials, Magnetization, Magnetization-time dependent, Terfenol-D, Nuclear magnetic resonance, Creep, Constant (mathematics)
Abstract

When a constant magnetizing field is applied to a Terfenol sample at a fixed temperature, a small fraction (

Published
2002

43. Potential application of innovative magnetoelastic resonators for vibration detection

Author

Giovanni Ausanio, M Inverno, Luciano Lanotte, Roberto Germano, R Sorrentino, C. Luponio, Amleto D'agostino, Vincenzo Iannotti, Ausanio, Giovanni, Iannotti, V, Luponio, C, Lanotte, L, Germano, R, D'Agostino, A, Inverno, M, and Sorrentino, R.

Subjects
Amorphous metal, Materials science, Condensed matter physics, Metals and Alloys, Condensed Matter Physics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Magnetic field, Core (optical fiber), Vibration, Resonator, Ferromagnetism, Dimension (vector space), Sensitivity (control systems), Electrical and Electronic Engineering, Instrumentation
Abstract

Recently, a new ferromagnetic amorphous alloy Fe62.5Co6Ni7.5Zr6Cu1Nb2B15 was produced which was used as core in new magnetoelastic wave resonators. In particular, the achievement of the following innovative properties were obtained: (1) low dimension; (2) zero polarising magnetic field in standard working condition; (3) high sensitivity to local change of magnetic field; (4) low costs. A very high sensitivity to little changes of magnetic field was obtained; it can be used to detect vibrations in the range of mechanical oscillations (1–500 Hz).

Published
2001

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