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Percolative Pathway to Stripe Order in KTaO3-Based Superconductivity

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arxiv 2511.20013 v1 pith:VFAIKX5X submitted 2025-11-25 cond-mat.supr-con cond-mat.mes-hall

Percolative Pathway to Stripe Order in KTaO3-Based Superconductivity

classification cond-mat.supr-con cond-mat.mes-hall
keywords stripeanisotropydimensionaldisorderemergentktao3orderpathway
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The sensitivity of low dimensional superconductors to fluctuations gives rise to emergent behaviors beyond the conventional Bardeen Cooper Schrieffer framework. Anisotropy is one such manifestation, often linked to spatially modulated electronic states and unconventional pairing mechanisms. Pronounced in plane anisotropy recently reported at KTaO3 based oxide interfaces points to the emergence of a stripe order in superconducting phase, yet its microscopic origin and formation pathway remain unresolved. Here, we show that controlled interfacial disorder in MgO/KTaO3(111) heterostructures drives a percolative evolution from localized Cooper-pair islands to superconducting puddles and eventually to stripes. The extracted stripe width matches the spin precession length, suggesting a self organized modulation governed by spin orbit coupling and lattice-symmetry breaking. These findings identify disorder as both a tuning parameter and a diagnostic probe for emergent superconductivity in two dimensional quantum materials.

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