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Strongly bound excitons dominate electronic relaxation in resonantly excited twisted bilayer graphene

When two sheets of graphene stack in a twisted bilayer graphene (tBLG) configuration, the resulting constrained overlap between interplanar 2p orbitals produce angle-tunable electronic absorption resonances. Using a novel combination of multiphoton transient absorption (TA) microscopy and TEM, we resolve the resonant electronic structure, and ensuing electronic relaxation inside single tBLG domains. Strikingly, we find that the transient electronic population in resonantly excited tBLG domains is enhanced many fold, forming a major electronic relaxation bottleneck. 2-photon TA microscopy shows this bottleneck effect originates from a strongly bound, dark exciton state lying 0.37 eV below the 1-photon absorption resonance. This stable coexistence of strongly bound excitons alongside free-electron continuum states has not been previously observed in a metallic, 2D material.

preprint2015arXivOpen access
Hiral PatelLola BrownYufeng LiangLi YangJiwoong ParkMatt W. Graham
cond-mat.mes-hall
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Hiral PatelLola BrownYufeng LiangLi YangJiwoong ParkMatt W. Graham

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