Low Temperature Physics: 38, 359 (2012); https://doi.org/10.1063/1.3699624 (3 pages)
Comparison of phase slippage processes in Josephson junctions and in charge density wave stacked junctions
Kotelnikov Institute of Radio-Engineering and Electronics, RAS, 11-7 Mokhovaya Str., Moscow 125009, Russia
Received December 28, 2011
We discuss time–space symmetry in the processes of phase slippage in Josephson junctions and charge density wave (CDW) stacked junctions. In Josephson junctions phase slip by 2π occurs periodically in time with a period T above critical current with a frequency obeys Josephson relation ν = 1/T = 2eV/h, where V is the voltage on the junction. In CDW stacks at voltage on the stack above threshold value the CDW dislocation appears in the weakest junction of the stack. This phase dislocation corresponds to the local phase slippage by 2π. With voltage increase a new dislocations appear forming periodic array of dislocations with a period L. The inverse spacing 1/L follows the analog of Josephson equation vF/L = 2eV/h.
PACS: 75.50.+r Quantum spin liquids, valence bond phases and related phenomena;
Key words: Josephson junction, phase slippage, CDW stacked junction, CDW phase soliton.