Fabrication and characterization of large arrays of mesoscopic gold rings on large-aspect-ratio cantilevers

We have fabricated large arrays of mesoscopic metal rings on ultrasensitive cantilevers. The arrays are defined by electron beam lithography and contain up to \(10^5\) rings. The rings have a circumference of 1 \(\mu\)m, and are made of ultrapure (6N) Au that is deposited onto a silicon-on-insulator...

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Bibliographic Details
Published in:arXiv.org 2014-08
Main Authors: Ngo, D Q, Petkovic, I, Lollo, A, Castellanos-Beltran, M A, Harris, J G E
Format: Article
Language:English
Subjects:
Adhesion
Arrays
Aspect ratio
Cantilever beams
Electron beam lithography
Gold
Mechanical properties
Spring constant
Online Access:Get full text
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Summary:We have fabricated large arrays of mesoscopic metal rings on ultrasensitive cantilevers. The arrays are defined by electron beam lithography and contain up to \(10^5\) rings. The rings have a circumference of 1 \(\mu\)m, and are made of ultrapure (6N) Au that is deposited onto a silicon-on-insulator wafer without an adhesion layer. Subsequent processing of the SOI wafer results in each array being supported at the end of a free-standing cantilever. To accommodate the large arrays while maintaining a low spring constant, the cantilevers are nearly 1 mm in both lateral dimensions and 100 nm thick. The extreme aspect ratio of the cantilevers, the large array size, and the absence of a sticking layer are intended to enable measurements of the rings' average persistent current \(\langle I \rangle\) in the presence of relatively small magnetic fields. We describe the motivation for these measurements, the fabrication of the devices, and the characterization of the cantilevers' mechanical properties. We also discuss the devices' expected performance in measurements of \(\langle I \rangle\).
ISSN:2331-8422
DOI:10.48550/arxiv.1406.2409