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Excitonic insulator to superconductor phase transition in ultra-compressed helium

Author

Listed:
  • Cong Liu

    (Universitat Politècnica de Catalunya)

  • Ion Errea

    (University of the Basque Country (UPV/EHU)
    Centro de Física de Materiales (CSIC-UPV/EHU)
    Donostia International Physics Center (DIPC))

  • Chi Ding

    (Nanjing University)

  • Chris Pickard

    (University of Cambridge
    Tohoku University)

  • Lewis J. Conway

    (University of Cambridge
    Tohoku University)

  • Bartomeu Monserrat

    (University of Cambridge
    University of Cambridge)

  • Yue-Wen Fang

    (University of the Basque Country (UPV/EHU)
    Centro de Física de Materiales (CSIC-UPV/EHU))

  • Qing Lu

    (Nanjing University)

  • Jian Sun

    (Nanjing University)

  • Jordi Boronat

    (Universitat Politècnica de Catalunya)

  • Claudio Cazorla

    (Universitat Politècnica de Catalunya)

Abstract

Helium, the second most abundant element in the universe, exhibits an extremely large electronic band gap of about 20 eV at ambient pressures. While the metallization pressure of helium has been accurately determined, thus far little attention has been paid to the specific mechanisms driving the band-gap closure and electronic properties of this quantum crystal in the terapascal regime (1 TPa = 10 Mbar). Here, we employ density functional theory and many-body perturbation calculations to fill up this knowledge gap. It is found that prior to reaching metallicity helium becomes an excitonic insulator (EI), an exotic state of matter in which electrostatically bound electron-hole pairs may form spontaneously. Furthermore, we predict metallic helium to be a superconductor with a critical temperature of ≈ 20 K just above its metallization pressure and of ≈ 70 K at 100 TPa. These unforeseen phenomena may be critical for improving our fundamental understanding and modeling of celestial bodies.

Suggested Citation

  • Cong Liu & Ion Errea & Chi Ding & Chris Pickard & Lewis J. Conway & Bartomeu Monserrat & Yue-Wen Fang & Qing Lu & Jian Sun & Jordi Boronat & Claudio Cazorla, 2023. "Excitonic insulator to superconductor phase transition in ultra-compressed helium," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-40240-x
    DOI: 10.1038/s41467-023-40240-x
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    References listed on IDEAS

    as
    1. Ion Errea & Matteo Calandra & Chris J. Pickard & Joseph R. Nelson & Richard J. Needs & Yinwei Li & Hanyu Liu & Yunwei Zhang & Yanming Ma & Francesco Mauri, 2016. "Quantum hydrogen-bond symmetrization in the superconducting hydrogen sulfide system," Nature, Nature, vol. 532(7597), pages 81-84, April.
    2. Ion Errea & Francesco Belli & Lorenzo Monacelli & Antonio Sanna & Takashi Koretsune & Terumasa Tadano & Raffaello Bianco & Matteo Calandra & Ryotaro Arita & Francesco Mauri & José A. Flores-Livas, 2020. "Quantum crystal structure in the 250-kelvin superconducting lanthanum hydride," Nature, Nature, vol. 578(7793), pages 66-69, February.
    3. A. Lazicki & D. McGonegle & J. R. Rygg & D. G. Braun & D. C. Swift & M. G. Gorman & R. F. Smith & P. G. Heighway & A. Higginbotham & M. J. Suggit & D. E. Fratanduono & F. Coppari & C. E. Wehrenberg & , 2021. "Metastability of diamond ramp-compressed to 2 terapascals," Nature, Nature, vol. 589(7843), pages 532-535, January.
    4. Liguo Ma & Phuong X. Nguyen & Zefang Wang & Yongxin Zeng & Kenji Watanabe & Takashi Taniguchi & Allan H. MacDonald & Kin Fai Mak & Jie Shan, 2021. "Strongly correlated excitonic insulator in atomic double layers," Nature, Nature, vol. 598(7882), pages 585-589, October.
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