Solution-phase sample-averaged single-particle spectroscopy of quantum emitters with femtosecond resolution

Shi, Jiaojian; Shen, Yuejun; Pan, Feng; Sun, Weiwei; Mangu, Anudeep; Shi, Cindy; McKeown-Green, Amy; Moradifar, Parivash; Bawendi, Moungi G.; Moerner, W. E.; Dionne, Jennifer A.; Liu, Fang; Lindenberg, Aaron M.

doi:10.1038/s41563-024-01855-7

Title: Solution-phase sample-averaged single-particle spectroscopy of quantum emitters with femtosecond resolution

Journal Article · 08 April 2024 · Nature Materials

DOI: https://doi.org/10.1038/s41563-024-01855-7 · OSTI ID:2405188

^[1]; Shen, Yuejun ^[2];

^[3]; Sun, Weiwei ^[4];

^[2]; Shi, Cindy ^[3]; McKeown-Green, Amy ^[3]; Moradifar, Parivash ^[3];

^[4]; Moerner, W. E. ^[3];

^[3];

^[2]

Stanford Univ., CA (United States); SLAC National Accelerator Laboratory (SLAC), Menlo Park, CA (United States); SLAC
Stanford Univ., CA (United States); SLAC National Accelerator Laboratory (SLAC), Menlo Park, CA (United States)
Stanford Univ., CA (United States)
Massachusetts Inst. of Technology (MIT), Cambridge, MA (United States)

Here, the development of many optical quantum technologies depends on the availability of solid-state single quantum emitters with near-perfect optical coherence. However, a standing issue that limits systematic improvement is the significant sample heterogeneity and lack of mechanistic understanding of microscopic energy flow at the single emitter level and ultrafast timescales. Here we develop solution-phase single-particle pump-probe spectroscopy with photon correlation detection that captures sample-averaged dynamics in single molecules and/or defect states with unprecedented clarity at femtosecond resolution. We apply this technique to single quantum emitters in two-dimensional hexagonal boron nitride, which suffers from significant heterogeneity and low quantum efficiency. From millisecond to nanosecond timescales, the translation diffusion, metastable-state-related bunching shoulders, rotational dynamics, and antibunching features are disentangled by their distinct photon-correlation timescales, which collectively quantify the normalized two-photon emission quantum yield. Leveraging its femtosecond resolution, spectral selectivity and ultralow noise (two orders of magnitude improvement over solid-state methods), we visualize electron-phonon coupling in the time domain at the single defect level, and discover the acceleration of polaronic formation driven by multi-electron excitation. Corroborated with results from a theoretical polaron model, we show how this translates to sample-averaged photon fidelity characterization of cascaded emission efficiency and optical decoherence time. Our work provides a framework for ultrafast spectroscopy in single emitters, molecules, or defects prone to photoluminescence intermittency and heterogeneity, opening new avenues of extreme-scale characterization and synthetic improvements for quantum information applications.

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Research Organization:: SLAC National Accelerator Laboratory (SLAC), Menlo Park, CA (United States)

Sponsoring Organization:: USDOE Office of Science (SC), Basic Energy Sciences (BES). Materials Sciences & Engineering Division (MSE); US Department of the Navy, Office of Naval Research (ONR); National Science Foundation (NSF)

Grant/Contract Number:: AC02-76SF00515; SC0021984; SC0021650

OSTI ID:: 2405188

Journal Information:: Nature Materials, Journal Name: Nature Materials Vol. 23; ISSN 1476-1122

Publisher:: Springer NatureCopyright Statement

Country of Publication:: United States

Language:: English

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Title: Solution-phase sample-averaged single-particle spectroscopy of quantum emitters with femtosecond resolution

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