Towards quantum electronics and optoelectronics with individual point defects in 2D semiconductors

Bent Weber, Nanyang Technological University Singapore

Atomic-scale quantum systems based on individual point defects and colour centres have become key elements in emerging quantum technologies, with applications in quantum sensing, computation, simulation, and communication. Different from conventional 3D semiconductors, electron (or hole) spins in atomically-thin (2D) semiconductors with hexagonal lattices [1], are coupled to an additional valley degree of freedom [2] in the presence of inversion asymmetry and strong spin-orbit coupling.

In-gap states due to atomic point defects can inherit these properties [3], making them promising atomic-scale quantum systems that may allow coherent control of spin-valley states electrically and optically. Using low-temperature (4.5K) resonant tunnelling scanning probe spectroscopy in the Coulomb blockade regime [4], we show that sulphur (S) vacancies in monolayers of MoS₂ exhibit a rich in-gap electronic structure governed by an interplay of local crystal symmetry breaking and spin-orbit coupling.

Combining the unrivalled spatial resolution of the scanning tunnelling microscope (STM) with conventional optics, we capture electrically stimulated luminescence with single-photon character [5] at length scales two orders of magnitude below the diffraction limit of conventional optics.

1. Xiaolong Liu and Mark C Hersam. “2D materials for quantum information science”. Nature Reviews Materials 4.10 (2019), pp. 669-684
2. X. Xu et al., “Spin and pseudospins in layered transition metal dichalcogenides.” Nature Physics, 10, (2014) pp. 343
3. R. Krishnan, S. Biswas, H. Ma, Y.-L. Hsueh, R. Rahman, and B. Weber, “Spin-Valley locking for in-gap quantum dots in a MoS₂ transistor” Nano Letters 23. 13 (2023), pp. 6171
4. T. Aliyar,… and B. Weber, “Symmetry breaking and spin-orbit coupling for individual vacancy-induced in-gap states in MoS₂ monolayers”. In preparation
5. G. Singh, …, and B. Weber “Single-photon character in light-emission captured at the atomic-scale from individual point defects in MoS₂“. In preparation

About the presenter

AI Dr Bent Weber is an Assistant Proffesor at NTU Singapore. Within FLEET, he works on the design, fabrication and measurement of molecular- to atomic-scale electronic devices, patterned with scanning tunnelling microscopy (STM).