Effect of Magnetic Field on Quasiparticle Branches of Intrinsic Josephson Junctions With Ferromagnetic Layer
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BRONZE
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Abstract
The interlayer tunneling spectroscopy has been performed on micron-sized mesa arrays of HgBr2 intercalated superconducting Bi2212 single crystals. A ferromagnetic multilayer (Au/Co/Au) is deposited on top of the mesas. The spin-polarized current is driven along the c-axis of the mesas through a ferromagnetic Co layer and the hysteretic quasiparticle branches are observed at 4.2 K. Magnetic field evolution of hysteretic quasiparticle branches is obtained to examine the effect of injected spin-polarized current on intrinsic Josephson junction characteristics. It is observed that there is a gradual distribution in quasiparticle branches with the application of magnetic field and increasing field reduces the switching current progressively.
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Keywords
Ferromagnetic materials, Current density, Intrinsic Josephson junctions, Spin-polarized current, Tunneling spectroscopy, Current density, Tunneling spectroscopy, Intrinsic Josephson junctions, Ferromagnetic materials, Spin-polarized current
Fields of Science
0103 physical sciences, 02 engineering and technology, 0210 nano-technology, 01 natural sciences
Citation
Özyüzer, L., Özdemir, M., Kurter, C., Hinks, D. G., and Gray, K. E. (2007). Effect of magnetic field on quasiparticle branches of intrinsic Josephson junctions with ferromagnetic layer. Physica C: Superconductivity and its Applications, 460-462(SPEC. ISS.), 950-951. doi:10.1016/j.physc.2007.03.322
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Volume
460-462
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SPEC. ISS.
Start Page
950
End Page
951
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