Fabrication of Nanoscaled Systems

Abstract

The main goal of this project was to develop new lithographic and nanofabrication approaches for the assembly of novel nanoelectronic and nanomagnetic device structures. Our team's interests, expertise and facilities spanned materials synthesis, nanoscale characterization, nanoscale lithography and processing, and involved three institutions (University of Virginia, Notre Dame University, Lund University). To fabricate annular structures of giant magnetoresistive material for proposed vertical magnetic random access memory structures, we explored use of a novel negative inorganic resist, HSQ. Using electron and ion beam exposure of the resist (as well as direct focused ion beam sputtering of the GMR material) we were able to create structures at or close to the project goal of 75/225 nm internal/external annular diameter. It was found that electron beam exposure offered slightly higher resolution but substantially lower throughput than ion beam exposure of the resist. The resultant exposed HSQ patterns offered good etch masks for physical sputtering of the underlying GMR material, an important consideration given the known challenges in reactive ion etching of these materials. Other studies focused on ultra rapid sputtering of PMMA using focused ion beams and exploring fabrication of inexpensive masks for electron projection lithography. We also explored nanoscale processing and contacting of nanowire structures with our collaborators at Lund University, with application to proposed quantum dot architectures such as quantum cellular automata.

Document Details

Document Type

Technical Report

Publication Date

May 01, 2007

Accession Number

ADA468815

Entities

Tags