Experimental Observation of Bulk Liquid Water Structure in ``No Man's Land''

ORAL

Abstract

Experiments on pure bulk water below about 235 K have so far been difficult: water crystallization occurs very rapidly below the homogeneous nucleation temperature of 232 K and above 160 K, leading to a ``no man's land'' devoid of experimental results regarding the structure. Here, we demonstrate a new, general experimental approach to study the structure of liquid states at supercooled conditions below their limit of homogeneous nucleation. We use femtosecond x-ray pulses generated by the LCLS x-ray laser to probe evaporatively cooled droplets of supercooled bulk water and find experimental evidence for the existence of metastable bulk liquid water down to temperatures of 223 K in the previously largely unexplored ``no man's land''.

*We acknoweledge NSF (CHE-0809324), Office of Basic Energy Sciences, and the Swedish Research Council for financial support.

Authors

  • Jonas Sellberg

    • SSRL, SLAC

  • Trevor McQueen

    • SSRL, SLAC

  • Congcong Huang

    • SSRL, SLAC

  • Duane Loh

    • PULSE, SLAC

  • Hartawan Laksmono

    • PULSE, SLAC

  • Raymond Sierra

    • PULSE, SLAC

  • Christina Hampton

    • PULSE, SLAC

  • Dmitri Starodub

    • PULSE, SLAC

  • Daniel DePonte

    • CFEL, DESY

  • Andrew Martin

    • CFEl, DESY

  • Anton Barty

    • CFEL, DESY

  • Thor Wikfeldt

    • Physics Department, Stockholm University

  • Daniel Schlesinger

    • Physics Department, Stockholm University

  • Lars Pettersson

    • Physics Department, Stockholm University

  • Martin Beye

    • SSRL, SLAC

  • Dennis Nordlund

    • SSRL, SLAC

  • Thomas Weiss

    • SSRL, SLAC

  • Jan Feldkamp

    • LCLS, SLAC

  • Chiara Caronna

    • LCLS, SLAC

  • Marvin Seibert

    • LCLS, SLAC

  • Marc Messerschmidt

    • LCLS, SLAC

  • Garth Williams

    • LCLS, SLAC

  • Sebastien Boutet

    • LCLS, SLAC

  • Michael Bogan

    • PULSE, SLAC

  • Anders Nilsson

    • SSRL, SLAC
    • SLAC