Rabi oscillations of a monolayer quantum emitter driven through its excited state

• URL: http://arxiv.org/abs/2510.23222v1
• Date: Mon, 27 Oct 2025 11:18:38 GMT
• Title: Rabi oscillations of a monolayer quantum emitter driven through its excited state
• Authors: Victor N. Mitryakhin, Ivan A. Solovev, Alexander Steinhoff, Jaewon Lee, Martin Esmann, Ana Predojević, Christopher Gies, Christian Schneider,
• Abstract summary: We study Rabi oscillations emerging in a WSe2 monolayer-based quantum dot.<n>The resulting exciton ground state population can be controlled by varying driving pulse area and detuning.<n>Our results pave the way towards the coherent control of quantum emitters in atomically thin semiconductors.
• Score: 37.796192954999675
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: The interaction of a quantum two-level system with a resonant driving field results in the emergence of Rabi oscillations, which are the hallmark of a controlled manipulation of a quantum state on the Bloch sphere. This all-optical coherent control of solid-state two-level systems is crucial for quantum applications. In this work we study Rabi oscillations emerging in a WSe2 monolayer-based quantum dot. The emitter is driven coherently using picosecond laser pulses to a higher-energy state, while photoluminescence is probed from the ground state. The theoretical treatment based on a three-level exciton model reveals the population transfer between the exciton ground and excited states coupled by Coulomb interaction. Our calculations demonstrate that the resulting exciton ground state population can be controlled by varying driving pulse area and detuning which is evidenced by the experimental data. Our results pave the way towards the coherent control of quantum emitters in atomically thin semiconductors, a crucial ingredient for monolayer-based high-performance, on-demand single photon sources.

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