Add to ORKG© the Owner Societies. A microscopic model of the dielectric relaxation of ice at low temperatures is proposed. This model is based on the mechanism of proton hopping controlled by traps created by orientation defects. Using the multiple-trapping model an expression for the dielectric relaxation time is obtained, which describes the non-Arrhenius behavior of the temperature dependence of the ice relaxation time at temperatures below 155 K
Ordinary ice has a proton-disordered phase which is kinetically metastable, unable to reach, spontan...
Author Institution: Department of Chemistry, Oklahoma State UniversityProton transport in hydrogen b...
Ice Ih, ordinary ice at atmospheric pressure, is a proton-disordered crystal that when cooled under ...
© the Owner Societies. A microscopic model of the dielectric relaxation of ice at low temperatures i...
© 2017 Author(s). A microscopic theory of dielectric relaxation of the hexagonal ice (I h ) is propo...
© 2017 the Owner Societies. Based on the idea of defect migration as the principal mechanism in the ...
The impurities in ice generate the orientational defects in the sample that block proton jumps. In t...
© 2018 Within the Langevin approach a new phenomenological model of dielectric relaxation of the ice...
© 2020 Russian Academy of Natural Science. All rights reserved. The article presents the results of ...
© the Owner Societies 2015. The main mechanism of the dielectric relaxation process of ordinary hexa...
When an initially unpolarized HF doped ice specimen is warmed at a constant rate in an applied elect...
The dielectric properties of ice Ih are studied using a Monte Carlo algorithm for sampling over prot...
Computer simulations of ice Ih with different proton orientations are presented. Simulations of prot...
The hydrogen-bond network formed from a crystalline solution of ferroelectric RbH_2PO_4 and antiferr...
It was recently suggested by Warman and Kunst that the slow secondary decay of solvated electrons, g...
Ordinary ice has a proton-disordered phase which is kinetically metastable, unable to reach, spontan...
Author Institution: Department of Chemistry, Oklahoma State UniversityProton transport in hydrogen b...
Ice Ih, ordinary ice at atmospheric pressure, is a proton-disordered crystal that when cooled under ...
© the Owner Societies. A microscopic model of the dielectric relaxation of ice at low temperatures i...
© 2017 Author(s). A microscopic theory of dielectric relaxation of the hexagonal ice (I h ) is propo...
© 2017 the Owner Societies. Based on the idea of defect migration as the principal mechanism in the ...
The impurities in ice generate the orientational defects in the sample that block proton jumps. In t...
© 2018 Within the Langevin approach a new phenomenological model of dielectric relaxation of the ice...
© 2020 Russian Academy of Natural Science. All rights reserved. The article presents the results of ...
© the Owner Societies 2015. The main mechanism of the dielectric relaxation process of ordinary hexa...
When an initially unpolarized HF doped ice specimen is warmed at a constant rate in an applied elect...
The dielectric properties of ice Ih are studied using a Monte Carlo algorithm for sampling over prot...
Computer simulations of ice Ih with different proton orientations are presented. Simulations of prot...
The hydrogen-bond network formed from a crystalline solution of ferroelectric RbH_2PO_4 and antiferr...
It was recently suggested by Warman and Kunst that the slow secondary decay of solvated electrons, g...
Ordinary ice has a proton-disordered phase which is kinetically metastable, unable to reach, spontan...
Author Institution: Department of Chemistry, Oklahoma State UniversityProton transport in hydrogen b...
Ice Ih, ordinary ice at atmospheric pressure, is a proton-disordered crystal that when cooled under ...