Dynamic Scaling of Magnetic Flux Noise Near the KTB Transition in Overdamped Josephson Junction Arrays

Berkeley; CA) L. L. Sohn (Department of Physics; Cambridge; D.-H. Lee; Division of Applied Sciences; Harvard University; John Clarke (University of California; Massachussetts); M. J. Ferrari; New Jersey) M. Tinkham (Department of Physics

arxiv: cond-mat/9603071 · v1 · submitted 1996-03-10 · ❄️ cond-mat

Dynamic Scaling of Magnetic Flux Noise Near the KTB Transition in Overdamped Josephson Junction Arrays

T. J. Shaw , M. J. Ferrari , D.-H. Lee , John Clarke (University of California , Berkeley , CA) L. L. Sohn (Department of Physics , Princeton University , Princeton

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New Jersey) M. Tinkham (Department of Physics Division of Applied Sciences Harvard University Cambridge Massachussetts)

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classification ❄️ cond-mat

keywords dynamicnoisetransitionexponentfluxfrequenciesjosephsonjunction

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We have used a dc Superconducting QUantum Interference Device to measure the magnetic flux noise generated by the equilibrium vortex density fluctuations associated with the Kosterlitz-Thouless-Berezinskii (KTB) transition in an overdamped Josephson junction array. At temperatures slightly above the KTB transition temperature, the noise is white for $f<f_\xi$ and scales as $1/f$ for $f>f_\xi$. Here $f_\xi\propto\xi^{-z}$, where $\xi$ is the correlation length and $z$ is the dynamic exponent. Moreover, when all frequencies are scaled by $f_\xi$, data for different temperatures and frequencies collapse on to a single curve. In addition, we have extracted the dynamic exponent $z$ and found $z=1.98\pm0.03$.

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Dynamic Scaling of Magnetic Flux Noise Near the KTB Transition in Overdamped Josephson Junction Arrays

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