H. Eikmans scite author profile

First we introduce a very efficient algorithm for dynamic simulations of a wide class of arrays of Josephson junctions with realistic boundaries. With this algorithm one can also represent currentbiased arrays with periodic boundaries. Next we present results of extensive simulations of ladder arrays. We evaluate the resistance as a function of magnetic field and find striking differences between different geometries.

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Using 3D Integrated Modelling to Manage the Fractured Natih Field (Oman)

Eikmans¹,

Hitchings²

1999

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Stability analysis of Shapiro steps in Josephson-junction arrays

Eikmans

Himbergen

1991

Phys. Rev. B

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The coupled set of evolution equations of the individual resistively shunted junctions in an array is written in a form that directly reveals the existence of a single-junction solution (SJS) for specific values of the external magnetic 6eld. We formulate a condition that determines these field strengths in terms of the corresponding ground-state configurations.By studying the linearized evolution equations, around this coherent-phase solution, we show that the array is phase locked to the external source when the S3S is stable. Only in this case does it have relevance in practice. Our analysis clearly indicates that there are only regular Shapiro steps in the regions of stability, and in between these regions our simulations confirm the absence of fractional steps, reported earlier. Furthermore, simulations, also in fields with no SjS, demonstrate a degree of insensitivity to the field strength, which is only partly understood.

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Vortex dynamics in classical underdamped junction arrays

Eikmans¹,

Himbergen²

1992

Phys. Rev. B

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H. Eikmans

Critical behavior of an array of Josephson junctions with variable couplings

Dynamic simulations of arrays of Josephson junctions

Using 3D Integrated Modelling to Manage the Fractured Natih Field (Oman)

Stability analysis of Shapiro steps in Josephson-junction arrays

Vortex dynamics in classical underdamped junction arrays

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