Abstract
A semicircular geometry is considered for overlap Josephson junction and theoretical studies show that an external static, homogeneous magnetic field applied parallel to the dielectric barrier can make transitory motion for both fluxons and antifluxons trapped in the junction without the help of a current fed into the junction. In this geometry, the effective magnetic field has opposite polarities at the ends of the junction and due to this, fluxons and antifluxons can be inserted from opposite ends at sufficiently higher magnetic fields. At low magnetic fields, the applied field produces a tilted potential which drives the trapped fluxons. This phenomena can be highly useful in flux flow oscillators and in bidirectional digital transmission lines.
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