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Giant effective Zeeman splitting in a monolayer semiconductor realized by spin-selective strong light-matter coupling

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arxiv 2109.05859 v1 pith:YPCXKQPH submitted 2021-09-13 cond-mat.mes-hall

Giant effective Zeeman splitting in a monolayer semiconductor realized by spin-selective strong light-matter coupling

classification cond-mat.mes-hall
keywords effectivesplittingcouplinggiantlight-mattermonolayerstrongzeeman
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Strong coupling between light and the fundamental excitations of a two-dimensional electron gas (2DEG) are of foundational importance both to pure physics and to the understanding and development of future photonic nanotechnologies. Here we study the relationship between spin polarization of a 2DEG in a monolayer semiconductor, MoSe$_2$, and light-matter interactions modified by a zero-dimensional optical microcavity. We find robust spin-susceptibility of the 2DEG to simultaneously enhance and suppress trion-polariton formation in opposite photon helicities. This leads to observation of a giant effective valley Zeeman splitting for trion-polaritons (g-factor >20), exceeding the purely trionic splitting by over five times. Going further, we observe robust effective optical non-linearity arising from the highly non-linear behaviour of the valley-specific strong light-matter coupling regime, and allowing all-optical tuning of the polaritonic Zeeman splitting from 4 to >10 meV. Our experiments lay the groundwork for engineering quantum-Hall-like phases with true unidirectionality in monolayer semiconductors, accompanied by giant effective photonic non-linearities rooted in many-body exciton-electron correlations.

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