Non-resonant Microwave Absorption and Boundary Current Response of Ba0.34K0.64Fe2As2 Superconducting Single Crystals

Abstract

Boundary current response of Ba0.34K0.64Fe2As2 (BaK122) single crystals was probed by non-resonant microwave absorption (NRMA) as a function of 100-KHz modulation field at an intermediate temperature, namely, 25 K, which is 10 K below the actual Tc. The measurements were done for both field parallel and perpendicular to the iron arsenide plane configuration. A weak anisotropic effect is noted. However, it is observed that the boundary current response depends on the modulation field value and it increases as we increase the modulation field value from 1 to 9 G. Further, this boundary current response strongly depends on the microwave power. We have shown that these modulation field and microwave power dependence of the boundary current response of NRMA signals in BaK122 iron arsenide crystal can be qualitatively understood through the Dulcic model.

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Acknowledgements

We acknowledge the high-quality BaK122 single crystals from Prof Yanwei Ma’s laboratory, Institute of Electrical Engineering, Chinese Academy of Sciences, Beijing, China.

Funding

We acknowledge a partial financial support by the UNISA-Research Chair for Superconductivity Technology, UNISA.

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Correspondence to V. V. Srinivasu.

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Ramashitja, T.C., Vallabhapurapu, H.H. & Srinivasu, V.V. Non-resonant Microwave Absorption and Boundary Current Response of Ba0.34K0.64Fe2As2 Superconducting Single Crystals. J Supercond Nov Magn 32, 3077–3080 (2019). https://doi.org/10.1007/s10948-019-5017-4

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Keywords

  • Non resonant microwave absorption (NRMA)
  • Ba0.34K0.64Fe2As2 (BaK122) single crystals
  • Boundary current response
  • Anisotropy
  • Iron arsenide plane