Experimental evidence of a {\phi} Josephson junction

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Abstract

We demonstrate experimentally the existence of Josephson junctions having a doubly degenerate ground state with an average Josephson phase \psi=\pm{\phi}. The value of {\phi} can be chosen by design in the interval 0<{\phi}<\pi. The junctions used in our experiments are fabricated as 0-{\pi} Josephson junctions of moderate normalized length with asymmetric 0 and {\pi} regions. We show that (a) these {\phi} Josephson junctions have two critical currents, corresponding to the escape of the phase {\psi} from -{\phi} and +{\phi} states; (b) the phase {\psi} can be set to a particular state by tuning an external magnetic field or (c) by using a proper bias current sweep sequence. The experimental observations are in agreement with previous theoretical predictions.

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Method for reliable realization of a varphi Josephson junction

D Koelle, R Kleiner, N. G. Pugach … (2009)

We propose a method to realize a \(\phi\) Josephson junction by combining alternating 0 and \(\pi\) parts (sub junctions) with an intrinsically non-sinusoidal current-phase relation (CPR). Conditions for the realization of the \(\phi\) ground state are analyzed. It is shown that taking into account the non-sinusoidal CPR for a "clean junction with a ferromagnetic (F) barrier, one can significantly enlarge the domain (regime of suitable F-layer thicknesses) of the \(\phi\) ground state and make the practical realization of \(\phi\) Josephson junctions feasible. Such junctions may also have two different stable solutions, such as 0 and \(\pi\), 0 and \(\phi\), or \(\phi\) and \(\pi\).