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Coherent momentum control of forbidden excitons

Author

Listed:
  • Xuezhi Ma

    (Texas A&M University
    Agency for Science, Technology and Research (A*STAR))

  • Kaushik Kudtarkar

    (Texas A&M University)

  • Yixin Chen

    (Texas A&M University
    Texas A&M University)

  • Preston Cunha

    (Texas A&M University)

  • Yuan Ma

    (Texas A&M University
    The Hong Kong Polytechnic University)

  • Kenji Watanabe

    (National Institute for Materials Science)

  • Takashi Taniguchi

    (National Institute for Materials Science)

  • Xiaofeng Qian

    (Texas A&M University
    Texas A&M University
    Texas A&M University)

  • M. Cynthia Hipwell

    (Texas A&M University)

  • Zi Jing Wong

    (Texas A&M University
    Texas A&M University)

  • Shoufeng Lan

    (Texas A&M University
    Texas A&M University)

Abstract

A double-edged sword in two-dimensional material science and technology is optically forbidden dark exciton. On the one hand, it is fascinating for condensed matter physics, quantum information processing, and optoelectronics due to its long lifetime. On the other hand, it is notorious for being optically inaccessible from both excitation and detection standpoints. Here, we provide an efficient and low-loss solution to the dilemma by reintroducing photonics bound states in the continuum (BICs) to manipulate dark excitons in the momentum space. In a monolayer tungsten diselenide under normal incidence, we demonstrated a giant enhancement (~1400) for dark excitons enabled by transverse magnetic BICs with intrinsic out-of-plane electric fields. By further employing widely tunable Friedrich-Wintgen BICs, we demonstrated highly directional emission from the dark excitons with a divergence angle of merely 7°. We found that the directional emission is coherent at room temperature, unambiguously shown in polarization analyses and interference measurements. Therefore, the BICs reintroduced as a momentum-space photonic environment could be an intriguing platform to reshape and redefine light-matter interactions in nearby quantum materials, such as low-dimensional materials, otherwise challenging or even impossible to achieve.

Suggested Citation

  • Xuezhi Ma & Kaushik Kudtarkar & Yixin Chen & Preston Cunha & Yuan Ma & Kenji Watanabe & Takashi Taniguchi & Xiaofeng Qian & M. Cynthia Hipwell & Zi Jing Wong & Shoufeng Lan, 2022. "Coherent momentum control of forbidden excitons," Nature Communications, Nature, vol. 13(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-34740-5
    DOI: 10.1038/s41467-022-34740-5
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    References listed on IDEAS

    as
    1. Yanhao Tang & Kin Fai Mak & Jie Shan, 2019. "Long valley lifetime of dark excitons in single-layer WSe2," Nature Communications, Nature, vol. 10(1), pages 1-7, December.
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    3. Deji Akinwande & Cedric Huyghebaert & Ching-Hua Wang & Martha I. Serna & Stijn Goossens & Lain-Jong Li & H.-S. Philip Wong & Frank H. L. Koppens, 2019. "Graphene and two-dimensional materials for silicon technology," Nature, Nature, vol. 573(7775), pages 507-518, September.
    4. Chia Wei Hsu & Bo Zhen & Jeongwon Lee & Song-Liang Chua & Steven G. Johnson & John D. Joannopoulos & Marin Soljačić, 2013. "Observation of trapped light within the radiation continuum," Nature, Nature, vol. 499(7457), pages 188-191, July.
    5. Ziliang Ye & Ting Cao & Kevin O’Brien & Hanyu Zhu & Xiaobo Yin & Yuan Wang & Steven G. Louie & Xiang Zhang, 2014. "Probing excitonic dark states in single-layer tungsten disulphide," Nature, Nature, vol. 513(7517), pages 214-218, September.
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