Paradigm shift in the field of optically active quantum dots: improved qubit and the nuclear interface
ORAL · Invited
Abstract
Epitaxial Quantum Dots (QDs) are world-leading single-photon sources owing to their efficient light-matter coupling [1]. Despite that, they have underperformed as spin-photon interfaces due to a short spin coherence time of a few microseconds. This cap, inherent to self-assembled QDs, originates from substantial strain inhomogeneity affecting the mesoscopic nuclear environment of the qubit. This talk will focus on the solution to this long-standing problem offered by lattice-matched QDs, in which significantly reduced strain inhomogeneity leads to a hundred-fold extension of coherence time [2]. Together with progress in photon collection, these experimental advances promote QDs to robust quantum nodes and allow for generating multi-photon entangled states. Beyond, the improved homogeneity of the collective qubit-nuclear coupling enables the exploration of many-body phenomena relying on feedback [3] and coherent exchange [4,5]. In the second part of the talk, I will review the recent experimental achievements and emerging proposals in this field.
[1] N. Tomm, …, R. J. Warburton, Nature Nanotechnology 16, pages 399–403 (2021)
[2] L. Zaporski, …, C. Le Gall, Nature Nanotechnology 18, 257–263 (2023)
[3] D. M. Jackson, ..., D. A. Gangloff, PRX 12, 031014 (2022)
[4] D. A. Gangloff, ..., M. Atature, Science 364, 62-66 (2019)
[5] L. Zaporski, …, D. A. Gangloff, arXiv:2301.10258 (2023)
*We acknowledge support from the Royal Society (EA/181068), the US Ofice of Naval Research Global (N62909-19-1-2115), the EU Horizon 2020 FET Open project QLUSTER (862035), the EU Horizon 2020 research and innovation programme under Marie Sklodowska-Curie grant QUDOT-TECH (861097), Qurope (899814), ASCENT+ (871130.), Engineering and Physical Sciences Research Council (grant EP/V048333/1), the Austrian Science Fund (FWF; FG 5, P 30459, I 4380, I 4320 and I 3762), the state of Upper Austria, the EPSRC DTP, the St. John's College Fellowship, the Royal Society University Research Fellowship, the Dorothy Hodgkin Royal Society Fellowship and the Royal Society University Research Fellowship.
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Publication:L. Zaporski, …, C. Le Gall, Nature Nanotechnology 18, 257–263 (2023), D. M. Jackson, ..., D. A. Gangloff, PRX 12, 031014 (2022) D. A. Gangloff, ..., M. Atature, Science 364, 62-66 (2019) L. Zaporski, …, D. A. Gangloff, arXiv:2301.10258 (2023) - under review in PRX Quantum
