Archivio Istituzionale della RicercaA special apparatus was designed in order to “write”, with nanometric resolution, microsize‐confined nanostructures in oxide samples. The nanostructures are produced by high energy heavy ion irradiation that allows nanostructuring the sample over its full thickness. The properties of the nanostructured areas can be further modulated by choosing the proper energy and fluence of the incoming ion beam. We present this set‐up and different kinds of nanostructured patterns created on high temperature superconducting films. We used the magneto‐optical analysis to directly show the effect of the confined nanostructures on the micron scale. The confined nanostructured area, embedded in the virgin matrix, is demonstrated to be a fruitful element for designing a new class of devices.
Nanostructuring of high-TC superconductors into micro-sized zones / Mezzetti, Enrica; Botta, Danilo; Chiodoni, Angelica; Gerbaldo, Roberto; Ghigo, Gianluca; Gozzelino, Laura; Laviano, Francesco; Minetti, Bruno; A., Rovelli; A., Amato; R., Cherubini. - In: AIP CONFERENCE PROCEEDINGS. - ISSN 0094-243X. - 824:(2006), pp. 786-793. (Intervento presentato al convegno International Cryogenic Materials Conference - ICMC tenutosi a Keystone (USA) nel 29 Aug. - 2 Sep. 2005) [10.1063/1.2192424].
Nanostructuring of high-TC superconductors into micro-sized zones
MEZZETTI, Enrica;BOTTA, Danilo;CHIODONI, ANGELICA;GERBALDO, Roberto;GHIGO, GIANLUCA;GOZZELINO, LAURA;LAVIANO, FRANCESCO;MINETTI, Bruno;
2006
Abstract
A special apparatus was designed in order to “write”, with nanometric resolution, microsize‐confined nanostructures in oxide samples. The nanostructures are produced by high energy heavy ion irradiation that allows nanostructuring the sample over its full thickness. The properties of the nanostructured areas can be further modulated by choosing the proper energy and fluence of the incoming ion beam. We present this set‐up and different kinds of nanostructured patterns created on high temperature superconducting films. We used the magneto‐optical analysis to directly show the effect of the confined nanostructures on the micron scale. The confined nanostructured area, embedded in the virgin matrix, is demonstrated to be a fruitful element for designing a new class of devices.
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https://hdl.handle.net/11583/1400674
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