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Online Seminar “”Unconventional multi-band superconductivity at two-dimensional oxide interfaces” by Gyanendra Singh (Wed, 2 Dec 2020)”

We would like to invite you to the the following Invited Online Seminar:

Unconventional multi-band superconductivity at two-dimensional oxide interfaces

by Gyanendra Singh, Department of Microtechnology and Nanoscience MC2, Chalmers University of Technology, Gothenburg, Sweden. Wednesday, 2 December 2020 @ 12 pm Online Invited Seminar by Zoom. Register here to attend.

Abstract:

A presence of two-dimensional superconductivity at the interface between LaAlO3 and SrTiO3, together with strong Rashba spin-orbit coupling, is of particular interest as theory predicts unconventional superconducting pairing and topological superconductivity [1,2]. While these interfaces share the interesting properties of bulk SrTiO3, quantum confinement, crystal orientation, and electrostatic gating also offer extra degrees of freedom to engineer the electronic band structure [3]. The filling of the bands can be precisely controlled with a gate voltage [4]. Using, resonant microwave experiment to extract the phase rigidity and the gap energy of the superconductor, and upper critical magnetic field, we demonstrate that multi-condensate superconductivity can occur at the interface as theoretically predicted. In addition, we observe a transition from single-band to two-band superconductivity at the Lifshitz transition corresponding to the filling threshold of the highest energy band. Interestingly, the superconducting gap is suppressed when the second band is populated, which challenges the standard Bardeen-Cooper-Schrieffer theory. We ascribed this behavior to the presence of repulsive interaction between the two condensates leading to an unconventional s±-wave superconducting state [5]. Moreover, we have investigated the current-voltage characteristics as a function of gate voltages, temperature, and the dimension of the superconducting nanowires of these interfaces. The critical current shows very strong anomalous enhancement with magnetic fields applied perpendicular to the plane, which cannot be explained with the classical model of superconductivity. We argued that the presence of Rashba spin-orbit-coupling and multi-band occupation leads to the formation of superconducting channels with intrinsic 0 and p phase shifts.

Bio:

Gyanendra Singh completed his Ph.D. from the Indian Institute of Technology Kanpur India in superconducting-ferromagnetic thin-film heterostructures. Then, he moved to ESPCI Paris, France, for his first postdoctoral position in the group of Prof. Jerome Lesueur. In 2018, he moved to Chalmers University of Technology Gothenburg, Sweden, for his second postdoctoral position in the QuantERA EU program project. There he has researched on two-dimensional oxide interfaces. His main research achievement is to discover multi-band superconductivity in oxide interfaces by using microwave spectroscopy. Hosted by  Gervasi Herranz, ICMAB researcher at the MULFOX group

References:

  1. D. Caviglia et al. Nature 456, 624–627 (2008).
  2. S. Scheurer Nature Commun. 6, 6005 (2015).
  3. Gervasi Herranz et al. Nature Communications 6, 6028 (2015).
  4. Gyanendra Singh et al. Nature communications 9, 407 (2018).
  5. Gyanendra Singh et al. Nature Materials 18, 948 (2019),
Register here to attend by Zoom. 

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