Laura Gozzelino scite author profile

Laura Gozzelino

3Publications

199Citation Statements Received

136Citation Statements Given

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Affiliations

Engineering (Italy), Polytechnic University of Turin, INFN Sezione di Torino

Publications

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Control of the critical current density inYBa2Cu3O7
Mezzetti
¹
,
Gerbaldo
²
,
Ghigo
³

et al. 1999
Phys. Rev. B
100
3
77
1
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The aim of this work is to investigate the mechanisms controlling the current-carrying capability of YBa 2 Cu 3 O 7Ϫ␦ thin films. A comparison between the magnetic properties of a film with intrinsic grainboundary defects and two films crossed by columnar defects with different densities is presented. Such properties have been studied by means of ac susceptibility measurements, resistivity measurements, and structural characterizations. The Clem and Sanchez model ͓Phys. Rev. B 50, 9355 ͑1994͔͒ is used to extract critical current values from the susceptibility data. In the virgin film, correlated grain-boundary defects were created among islands with homogeneous size, by means of the appropriate modifications in the growth process. Columnar defects were produced through 0.25-GeV Au-ion irradiation. The central issue concerns the investigation of the plateaulike features characterizing the log-log field dependence of the critical current density, the analysis of the J c temperature dependence, and of the irreversibility line. An analytical expression of J c vs B is given in order to compare the main issues with the experimental data. This model suggests that the intergrain pinning dominates in the high-current/low-temperature regime through a network of frustrated Josephson junctions, while the intragrain pinning is effective near the irreversibility line.

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An improved method for quantitative magneto-optical analysis of superconductors

Laviano

Botta

Chiodoni

et al. 2002

Supercond. Sci. Technol.

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We report on the analysis method to extract quantitative local electrodynamics in superconductors by means of the magneto-optical technique. First of all, we discuss the calibration procedure to convert the local light intensity values into magnetic induction field distribution and start focusing on the role played by the generally disregarded magnetic induction components parallel to the indicator film plane (in-plane field effect). To account for the reliability of the whole technique, the method used to reconstruct the electrical current density distribution is reported, together with a numerical test example. The methodology is applied to measure local magnetic field and current distributions on a typical YBa 2 Cu 3 O 7−x good quality film. We show how the in-plane field influences the MO measurements, after which we present an algorithm to account for the in-plane field components. The meaningful impact of the correction on the experimental results is shown. Afterwards, we discuss some aspects about the electrodynamics of the superconducting sample.

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Passive magnetic shielding by machinable MgB₂ bulks: measurements and numerical simulations

Gozzelino

Gerbaldo

Ghigo

et al. 2019

Supercond. Sci. Technol.

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We report on a combined experimental and modelling approach towards the design and fabrication of efficient bulk shields for low-frequency magnetic fields. To this aim, MgB2 is a promising material when its growing technique allows the fabrication of suitably shaped products and a realistic numerical modelling can be exploited to guide the shield design. Here, we report the shielding properties of an MgB2 tube grown by a novel technique that produces fully machinable bulks, which can match specific shape requirements. Despite a height/radius aspect ratio of only 1.75, shielding factors higher than 175 and 55 were measured at temperature T = 20 K and in axially-applied magnetic fields μ0Happl = 0.1 and 1.0 T, respectively, by means of cryogenic Hall probes placed on the tube’s axis. The magnetic behaviour of the superconductor was then modelled as follows: first we used a two-step procedure to reconstruct the macroscopic critical current density dependence on magnetic field, Jc(B), at different temperatures from the local magnetic induction cycles measured by the Hall probes. Next, using these Jc(B) characteristics, by means of finite-element calculations we reproduced the experimental cycles remarkably well at all the investigated temperatures and positions along the tube’s axis. Finally, this validated model was exploited to study the influence both of the tube’s wall thickness and of a cap addition on the shield performance. In the latter case, assuming the working temperature of 25 K, shielding factors of 105 and 104 are predicted in axial applied fields μ0Happl = 0.1 and 1.0 T, respectively.

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Laura Gozzelino

Control of the critical current density inYBa2Cu3O7
Mezzetti
¹
,
Gerbaldo
²
,
Ghigo
³

et al. 1999
Phys. Rev. B
100
3
77
1
View full text Add to dashboard Cite

An improved method for quantitative magneto-optical analysis of superconductors

Passive magnetic shielding by machinable MgB₂ bulks: measurements and numerical simulations

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Laura Gozzelino

Control of the critical current density inYBa2Cu3O7Mezzetti1, Gerbaldo2, Ghigo3 et al. 1999Phys. Rev. B1003771View full textAdd to dashboardCite

An improved method for quantitative magneto-optical analysis of superconductors

Passive magnetic shielding by machinable MgB2 bulks: measurements and numerical simulations

Contact Info

Product

Resources

About

Control of the critical current density inYBa2Cu3O7
Mezzetti
¹
,
Gerbaldo
²
,
Ghigo
³

et al. 1999
Phys. Rev. B
100
3
77
1
View full text Add to dashboard Cite

Passive magnetic shielding by machinable MgB₂ bulks: measurements and numerical simulations