P Chen scite author profile

P Chen

2Publications

52Citation Statements Received

112Citation Statements Given

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109

Affiliations

Institute of Materials Research and Engineering

Publications

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Fabrication of sub-100 nm patterns in SiO₂ templates by electron-beam lithography for the growth of periodic III–V semiconductor nanostructures

et al. 2006

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We report on the fabrication process of SiO 2 templates with periodic sub-100 nm patterns by electron-beam (e-beam) lithography followed by reactive ion etching. One-dimensional and two-dimensional periodic patterns were defined in 350 nm polymethylmethacrylate resist by e-beam lithography, and then transferred into 100 nm SiO 2 layers which were coated on GaAs or GaN/sapphire substrate. Patterns including line arrays and square/hexagonal hole arrays were obtained in the SiO 2 layers with sizes ranging from 100 nm to 52 nm in width or diameter. A pattern size deviation of less than 4% in a hole array of 100 µm by 100 µm was achieved. The patterned SiO 2 layers can serve as templates for the growth of periodic III-V semiconductor nanostructures. In this work, periodic InGaN nanowires and nanodots with high optical quality have been fabricated successfully by using the SiO 2 templates on GaN/sapphire.

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The interaction field in arrays of ferromagnetic barcode nanowires

Clime¹,

Zhao²,

Chen³

et al. 2007

Nanotechnology

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The interaction field in arrays of ferromagnetic barcode nanowires Clime, L.; Zhao, S. Y.; Chen, P.; Normandin, F.; Roberge, H.; Veres, T.Contact us / Contactez nous: nparc.cisti@nrc-cnrc.gc.ca. AbstractA theoretical model and an experimental approach to the identification of the interaction field in ferromagnetic barcode nanowires are described and applied to electrodeposited Ni/Au cylindrical barcode arrays. Elementary hysteresis loops of individual magnetic segments in these barcode nanowires are considered as superpositions of fully irreversible and locally reversible magnetization processes, whose distributions of switching fields are experimentally identified by first order reversal curve measurements. Non-interacting major hysteresis loops of the arrays are computed as superpositions of several elementary loops by considering the distributions of switching fields as probability density functions. The interaction field is then computed from the condition that the geometric transformation of the experimental major hysteresis loop into the Preisach operative plane be well approximated by this non-interacting hysteresis loop. Experimental interaction field values are compared with those obtained by numerical micromagnetic computations and a very good agreement is obtained on extended Ni/Au barcode arrays. The simple and accurate phenomenological model for the interaction field in multisegmented ferromagnetic nanowire arrays proposed here provides an insight into the morphology of these magnetic nanomaterials, as quantitative information about individual nano-objects may be extracted from macroscopic measurements of their arrays.

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P Chen

Fabrication of sub-100 nm patterns in SiO₂ templates by electron-beam lithography for the growth of periodic III–V semiconductor nanostructures

The interaction field in arrays of ferromagnetic barcode nanowires

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P Chen

Fabrication of sub-100 nm patterns in SiO2 templates by electron-beam lithography for the growth of periodic III–V semiconductor nanostructures

The interaction field in arrays of ferromagnetic barcode nanowires

Contact Info

Product

Resources

About

Fabrication of sub-100 nm patterns in SiO₂ templates by electron-beam lithography for the growth of periodic III–V semiconductor nanostructures