DocumentCode
1762112
Title
Fabrication of Nb Superconducting Nanowires by Nanoimprint Lithography
Author
Lu Zhao ; Yirong Jin ; Jie Li ; Hui Deng ; Hekang Li ; Keqiang Huang ; Limin Cui ; Dongning Zheng
Author_Institution
Beijing Nat. Lab. for Condensed Matter Phys., Inst. of Phys., Beijing, China
Volume
25
Issue
3
fYear
2015
fDate
42156
Firstpage
1
Lastpage
5
Abstract
Nanoimprint lithography (NIL) is considered to be an attractive nonconventional lithographic technique in the fabrication of nanostructures with many advantages including low cost, high throughput, and high resolution on relatively large areas. In this paper, NIL was used to pattern superconducting nanowires with meander structures based on ultrathin (~4 nm) Nb films deposited by dc-magnetron sputtering at room temperature. A combination of thermal-NIL and UV-NIL was exploited to transfer the meander pattern from the imprint hard mold to Nb films. The hard mold, etched into a Si wafer, was defined by e-beam lithography (EBL), which was nonexpendable due to the application of IPS as a soft mold to transfer the pattern to the imprint resist in the NIL process. Superconducting properties such as transition temperature T c and critical current density Jc were measured on the NIL-made Nb nanowires. The results are compared with those of EBL-made nanowires.
Keywords
critical current density (superconductivity); electron beam lithography; etching; moulding; nanolithography; nanowires; niobium; resists; sputter deposition; superconducting thin films; superconducting transition temperature; type II superconductors; ultraviolet lithography; IPS; Nb; Nb films; Si wafer; UV-NIL; critical current density; dc-magnetron sputtering; e-beam lithography; etching; hard molding; imprint resist; meander pattern; meander structures; nanoimprint lithography; nanostructure fabrication; nonconventional lithographic technique; soft molding; superconducting nanowire fabrication; superconducting properties; temperature 293 K to 298 K; thermal-NIL; transition temperature; ultrathin films; Films; Nanowires; Niobium; Photonics; Silicon; Superconducting photodetectors; Superconducting transition temperature; Meander structure; Nanoimprint lithography; Nanowires; Single photon detectors; nanoimprint lithography; nanowires; single photon detectors;
fLanguage
English
Journal_Title
Applied Superconductivity, IEEE Transactions on
Publisher
ieee
ISSN
1051-8223
Type
jour
DOI
10.1109/TASC.2014.2382976
Filename
6990535
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