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A superconductor to superfluid phase transition in liquid metallic hydrogen

Author

Listed:
  • Egor Babaev

    (Cornell University
    Norwegian University of Science and Technology)

  • Asle Sudbø

    (Norwegian University of Science and Technology)

  • N. W. Ashcroft

    (Cornell University)

Abstract

Although hydrogen is the simplest of atoms, it does not form the simplest of solids or liquids. Quantum effects in these phases are considerable (a consequence of the light proton mass) and they have a demonstrable and often puzzling influence on many physical properties1, including spatial order. To date, the structure of dense hydrogen remains experimentally elusive2. Recent studies of the melting curve of hydrogen3,4 indicate that at high (but experimentally accessible) pressures, compressed hydrogen will adopt a liquid state, even at low temperatures. In reaching this phase, hydrogen is also projected to pass through an insulator-to-metal transition. This raises the possibility of new state of matter: a near ground-state liquid metal, and its ordered states in the quantum domain. Ordered quantum fluids are traditionally categorized as superconductors or superfluids; these respective systems feature dissipationless electrical currents or mass flow. Here we report a topological analysis of the projected phase of liquid metallic hydrogen, finding that it may represent a new type of ordered quantum fluid. Specifically, we show that liquid metallic hydrogen cannot be categorized exclusively as a superconductor or superfluid. We predict that, in the presence of a magnetic field, liquid metallic hydrogen will exhibit several phase transitions to ordered states, ranging from superconductors to superfluids.

Suggested Citation

  • Egor Babaev & Asle Sudbø & N. W. Ashcroft, 2004. "A superconductor to superfluid phase transition in liquid metallic hydrogen," Nature, Nature, vol. 431(7009), pages 666-668, October.
    • Handle: RePEc:nat:nature:v:431:y:2004:i:7009:d:10.1038_nature02910
    DOI: 10.1038/nature02910
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    Cited by:

    1. Ilya Shipulin & Nadia Stegani & Ilaria Maccari & Kunihiro Kihou & Chul-Ho Lee & Quanxin Hu & Yu Zheng & Fazhi Yang & Yongwei Li & Chi-Ming Yim & Ruben Hühne & Hans-Henning Klauss & Marina Putti & Fede, 2023. "Calorimetric evidence for two phase transitions in Ba1−xKxFe2As2 with fermion pairing and quadrupling states," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    2. Leif Holmlid, 2022. "Generator for Large Fluxes of Kaons and Pions Using Laser-Induced Nuclear Processes in Ultra-Dense Hydrogen H(0)," Energies, MDPI, vol. 15(24), pages 1-14, December.

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