Shamashis Sengupta, Chuan Li, Cedric Baumier, Alik Kasumov, S. Gueron, H. Bouchiat, F. Fortuna
Published 2014-08-29Version 1
Superconducting nanowires can be fabricated by decomposition of an organometallic gas using a focused beam of Ga ions. However, physical damage and unintentional doping often results from the exposure to the ion beam, motivating the search for a means to achieve similar structures with a beam of electrons instead of ions. This has so far remained an experimental challenge. We report the fabrication of superconducting tungsten nanowires by electron-beam-induced-deposition, with critical temperature of 2.0 K and critical magnetic field of 3.7 T, and compare them with superconducting wires made with ions. This work opens up new possibilities for the realization of nanoscale superconducting devices, without the requirement of an ion beam column.
Comments: 5 pages, 4 figures
Dynamics of superconducting nanowires shunted with an external resistor
Majorana fermions in superconducting nanowires without spin-orbit coupling
Quantum Tunneling of the Order Parameter in Superconducting Nanowires
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