学术报告:Magnetic and superconducting correlation in monolayer and twisted bilayer graphene

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报告题目:Magnetic and superconducting correlation in monolayer and twisted bilayer graphene

报告人:马天星 教授(北京师范大学物理学系)

报告时间:201891日(星期六)下午1:00 — 1:50

报告地点:新物理楼3楼阳光房

报告摘要:

Using exact quantum Monte Carlo method, we identify the phase diagram of the half-filled, the lightly doped and heavily doped graphene, which shows a rather rich physical properties. At half filling, the system is driven to a Mott insulator with antiferromagnetic long range order by increasing interaction, and a transition from a d+id pairing to a p+ip pairing is revealed, depends on the next-nearest hoping and the electronic fillings. We also examine the recent novel electronic states seen in magic-angle graphene superlattices. From the Hubbard model on a double-layer honeycomb lattice with a rotation angle θ=1.08, we reveal that an antiferromagnetically ordered Mott insulator emerges beyond a critical Uc at half filling, and with a small doping, the pairing with d+id symmetry dominates over other pairings at low temperature. The effective d+id pairing interaction strongly increase as the on-site Coulomb interaction increases, indicating that the superconductivity is driven by electron-electron correlation. Our non-biased numerical results demonstrate that the twisted bilayer graphene share the similar superconducting mechanism of high temperature superconductors, which is a new and idea platform for further investigating the strongly correlated phenomena.



邀请人:王宇教授



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