AI Article Synopsis
- The study examines how to achieve topological superconductivity (TSC) in doped Mott insulators with time-reversal symmetry.
- Researchers used large-scale simulations to identify a specific chiral TSC characterized by spontaneous breaking of time-reversal symmetry and a Chern number of 2.
- The findings highlight a quantum phase diagram showing phases like pseudogap with charge stripe order, transitioning to d-wave superconductivity as certain parameters change, driven by geometrical frustrations and hole dynamics.
Article Abstract
The topological superconducting state is a highly sought-after quantum state hosting topological order and Majorana excitations. In this Letter, we explore the mechanism to realize the topological superconductivity (TSC) in the doped Mott insulators with time-reversal symmetry (TRS). Through large-scale density matrix renormalization group study of an extended triangular-lattice t-J model on the six- and eight-leg cylinders, we identify a d+id-wave chiral TSC with spontaneous TRS breaking, which is characterized by a Chern number C=2 and quasi-long-range superconducting order. We map out the quantum phase diagram with by tuning the next-nearest-neighbor (NNN) electron hopping and spin interaction. In the weaker NNN-coupling regime, we identify a pseudogaplike phase with a charge stripe order coexisting with fluctuating superconductivity, which can be tuned into d-wave superconductivity by increasing the doping level and system width. The TSC emerges in the intermediate-coupling regime, which has a transition to a d-wave superconducting phase with larger NNN couplings. The emergence of the TSC is driven by geometrical frustrations and hole dynamics which suppress spin correlation and charge order, leading to a topological quantum phase transition.
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| http://dx.doi.org/10.1103/PhysRevLett.130.136003 | DOI Listing |
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