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- Title
Nano Josephson superconducting tunnel junctions in YBa<sub>2</sub>Cu<sub>3</sub>O<sub>7-δ</sub> directly patterned with a focused helium ion beam.
- Authors
Cybart, Shane A.; Cho, E. Y.; Wong, T. J.; Wehlin, Björn H.; Ma, Meng K.; Huynh, Chuong; Dynes, R. C.
- Abstract
Since the discovery of the high-transition-temperature superconductors (HTSs), researchers have explored many methods to fabricate superconducting tunnel junctions from these materials for basic science purposes and applications. HTS circuits operating at liquid-nitrogen temperatures (∼77 K) would significantly reduce power requirements in comparison with those fabricated from conventional superconductors. The difficulty is that the superconducting coherence length is very short and anisotropic in these materials, typically ∼2 nm in the a-b plane and ∼0.2 nm along the c axis. The electrical properties of Josephson junctions are therefore sensitive to chemical variations and structural defects on atomic length scales1. To make multiple uniform HTS junctions, control at the atomic level is required. In this Letter we demonstrate all-HTS Josephson superconducting tunnel junctions created by using a 500-pm-diameter focused beam of helium ions to directly write tunnel barriers into YBa2Cu3O7−δ (YBCO) thin films. We demonstrate the ability to control the barrier properties continuously from conducting to insulating by varying the irradiation dose. This technique could provide a reliable and reproducible pathway for scaling up quantum-mechanical circuits operating at liquid-nitrogen temperatures, as well as an avenue to conduct novel planar superconducting tunnelling studies for basic science.
- Subjects
JOSEPHSON junctions; SUPERCONDUCTING junction devices; LIQUID nitrogen; COHERENCE length; ANISOTROPY; HELIUM ions; THIN films; IRRADIATION
- Publication
Nature Nanotechnology, 2015, Vol 10, Issue 7, p598
- ISSN
1748-3387
- Publication type
Article
- DOI
10.1038/nnano.2015.76