AP Seminar - Charge Stripe Manipulation of Superconducting Pairing Symmetry Transition

Charge stripes have been widely observed in many different types of unconventional superconductors, holding varying periods and intensities. However, a general understanding on the interplay between charge stripes and superconducting properties is still incomplete. Here, using large-scale unbiased numerical simulations on a general inhomogeneous Hubbardmodel, we discover that the charge-stripe period P, which is variable in different real material systems, could dictate the pairing symmetries--d wave for P is larger than 4, s and d waves for P is smaller than 3. In the latter, tuning hole doping and charge-stripe amplitude can trigger a d-s wave transition and magnetic-correlation shift, where the dwave state converts to a pairing-densitywave state, competing with the s wave. These interesting phenomena arise from an unusual stripe-induced selection rule of pairing symmetries around on-stripe region and within inter-stripe region, giving rise to a critical point of P=3 for the phase transition. In general, our findings offer important insights into the differences in the superconducting pairing mechanisms across many P-dependent superconducting systems, highlighting the decisive role of charge stripe.