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Spin Faraday pattern formation in a circular spin-orbit coupled Bose-Einstein condensate with stripe phase

Published 21 Jul 2025 in cond-mat.quant-gas and physics.atom-ph | (2507.15263v1)

Abstract: We investigate the spin Faraday pattern formation in a periodically driven, pancake-shaped spin-orbit-coupled (SOC) Bose-Einstein condensate (BEC) prepared with stripe phase. By modulating atomic interactions using $in$-$phase$ and $out$-$of$-$phase$ protocols, we observe collective excitation modes with distinct rotational symmetries (L-fold). Crucially, at the critical modulation frequency, $out$-$of$-$phase$ modulation destabilizes the L = 6 pattern, whereas $in$-$phase$ modulation not only preserves high symmetry but also excites higher-order modes (L $\ge $ 6). Unlike conventional binary BECs, Faraday patterns emerge here without initial noise due to SOC-induced symmetry breaking, with all patterns exhibiting supersolid characteristics. Furthermore, we demonstrate control over pattern symmetry, radial nodes, and pattern radius by tuning the modulation frequency, providing a new approach for manipulating quantum fluid dynamics. This work establishes a platform for exploring supersolidity and nonlinear excitations in SOC systems with stripe phase.

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