Multiple charge density waves and superconductivity nucleation at antiphase domain walls in the nematic pnictide Ba\(_{1-x}\)Sr\(_{x}\)Ni\(_{2}\)As\(_{2}\)

How superconductivity interacts with charge or nematic order is one of the great unresolved issues at the center of research in quantum materials. Ba\(_{1-x}\)Sr\(_{x}\)Ni\(_{2}\)As\(_{2}\) (BSNA) is a charge ordered pnictide superconductor recently shown to exhibit a six-fold enhancement of superco...

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Bibliographic Details
Published in:arXiv.org 2021-02
Main Authors: Lee, Sangjun, Collini, John, Sun, Stella X -L, Mitrano, Matteo, Guo, Xuefei, Eckberg, Chris, Paglione, Johnpierre, Fradkin, Eduardo, Abbamonte, Peter
Format: Article
Language:English
Subjects:
Antiphase boundaries
Barium
Charge density waves
Domain walls
Group 5A compounds
Lattice parameters
Nucleation
Phase transitions
Strontium
Superconductivity
Symmetry
X-ray scattering
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Summary:How superconductivity interacts with charge or nematic order is one of the great unresolved issues at the center of research in quantum materials. Ba\(_{1-x}\)Sr\(_{x}\)Ni\(_{2}\)As\(_{2}\) (BSNA) is a charge ordered pnictide superconductor recently shown to exhibit a six-fold enhancement of superconductivity due to nematic fluctuations near a quantum phase transition (at \(x_c=0.7\)). The superconductivity is, however, anomalous, with the resistive transition for \(0.4 < x< x_c\) occurring at a higher temperature than the specific heat anomaly. Using x-ray scattering, we discovered a new charge density wave (CDW) in BSNA in this composition range. The CDW is commensurate with a period of two lattice parameters, and is distinct from the two CDWs previously reported in this material. We argue that the anomalous transport behavior arises from heterogeneous superconductivity nucleating at antiphase domain walls in this CDW. We also present new data on the incommensurate CDW, previously identified as being unidirectional, showing that is a rotationally symmetric, "4\(Q\)" state with \(C_4\) symmetry. Our study establishes BSNA as a rare material containing three distinct CDWs, and an exciting testbed for studying coupling between CDW, nematic, and SC orders.
ISSN:2331-8422
DOI:10.48550/arxiv.2102.03592