Berlin 2005 – wissenschaftliches Programm

Bereiche | Tage | Auswahl | Suche | Downloads | Hilfe

TT: Tiefe Temperaturen

TT 10: Superconductivity - Tunneling, Josephson Junctions, SQUIDs

TT 10.6: Vortrag

Samstag, 5. März 2005, 09:45–10:00, TU H104

SIFS junctions for Semifluxon Qubits — •M. Weides¹, H. Kohlstedt¹, R. Waser¹, E. Goldobin², D. Koelle², R. Kleiner², and V. Ryazanov³ — ¹Institut für Festkörperforschung,Forschungszentrum Jülich — ²Physikalisches Institut –Experimentalphysik II, Universität Tübingen — ³Institute for Solid State Physics,Chernogolovka, Russia

There are several approaches to realize qubits using π or 0-π Josephson junctions (JJs). Such JJs can be fabricated using a ferromagnetic barrier of thickness d_F between two superconductors, i.e. SFS or SIFS structures. Due to damped spatial oscillations of the order parameter in the F-layer, d_F determines the phase coupling (0 or π) and the critical current density j_c of such JJs. We fabricated SIFS multilayers Nb/Al₂O₃/Cu₄₀Ni₆₀/Nb by magnetron sputtering. Similar JJs without an F-layer (SIS JJs) show j_c∼2.5 kA/cm², low sub gap current and a large superconducting gap. In SIFS JJs the first side maximum of j_c(d_F) corresponds to the π ground state and is clearly seen in our samples. For applications such as digital logic and qubits, a figure of merit is V_c=I_cR_n in the π state, which for our SIFSs is about 10 µV — the highest value obtained so far for SIFS JJs. The appearance of a degenerated semifluxon state at the boundary between 0- π parts¹ is interesting both for fundamental studies and applications. In the quantum limit, semifluxons could be used as quiet qubits or as a playground for testing quantum mechanics. We propose a way of designing 0-π SIFS junctions for the investigation of semifluxons.
¹ E. Goldobin et al., Phys. Rev. B 66, 100508 (2002).