Mechanisms of the antiferro-electric ordering in superprotonic conductors Cs3H(SeO4)2 and Cs3D(SeO4)2

Hiroshi Matsui; Kakeru Fukuda; Saki Takano; Yuka Ikemoto; Takahiko Sasaki; Yasumitsu Matsuo

doi:10.1063/5.0088230

Mechanisms of the antiferro-electric ordering in superprotonic conductors Cs₃H(SeO₄)₂ and Cs₃D(SeO₄)₂

J Chem Phys. 2022 May 28;156(20):204504. doi: 10.1063/5.0088230.

Authors

Hiroshi Matsui¹, Kakeru Fukuda¹, Saki Takano¹, Yuka Ikemoto², Takahiko Sasaki³, Yasumitsu Matsuo⁴

Affiliations

¹ Department of Physics, Graduate School of Science, Tohoku University, Sendai 980-8578, Japan.
² SPring-8, Japan Synchrotron Radiation Research Institute, Sayo, Hyogo 679-5198, Japan.
³ Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan.
⁴ Faculty of Science and Engineering, Department of Life Science, Setsunan University, Neyagawa 572-8508, Japan.

PMID: 35649845
DOI: 10.1063/5.0088230

Abstract

Wide ranges of absorbance spectra were measured to elucidate a difference in the antiferro-electric (AF) ordering mechanisms below 50 and 168 K in Cs₃H(SeO₄)₂ and Cs₃D(SeO₄)₂, respectively. Collective excitations due to deuterons successfully observed at 610 cm^-1 exhibit a remarkable isotope effect. This indicates that the transfer state in the dimer of Cs₃D(SeO₄)₂ is dominated by a deuteron hopping in contrast to Cs₃H(SeO₄)₂, where a proton hopping makes a tiny contribution compared to a phonon-assisted proton tunneling (PAPT) associated with 440-cm^-1 def_bend . The fluctuation relevant to the AF ordering in Cs₃D(SeO₄)₂ is not driven by the conventional deuteron hopping but by the phonon-assisted deuteron hopping associated with 310-cm^-1 def_bend . Consequently, Cs₃D(SeO₄)₂ has a distinct ordering mechanism from Cs₃H(SeO₄)₂, in which quantum fluctuations toward the AF ordering are enhanced through the PAPT associated with the in-phase libration.