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Physics and Chemistry of Liquids
An International Journal
Volume 58, 2020 - Issue 5
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Letter

Structure and dynamics of molten SrCl2

Yu. D. FominLaboratory of Phase Transitions in Strongly Correlated and Disordered Systems, Institute for High Pressure Physics RAS, Troitsk, RussiaCorrespondence[email protected]
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Pages 693-700 | Received 09 Mar 2020, Accepted 14 Apr 2020, Published online: 26 Apr 2020

References

  • Tosi MP, March NH. Introduction to liquid state physics. Singapore: World Scientific Publishing Company, 2002.
  • Brazhkin VV, Katayama Y, Lyapin AG, et al. Structural studies of phase transitions in crystalline and liquid halides (ZnCl2, AlCl3) under pressure. JETP Lett. 2005;82:713–718.
  • Wasse JC, Salmon PS. Structure of molten trivalent metal chlorides. Physica B. 1998;241(243):967–969.
  • Wasse JC, Salmon PS. Structure of molten trivalent metal chlorides studied by using neutron diffraction: the systems TbCl3, YCl3, HoCl3 and ErCl3. J Phys Condens Matter. 1999;11:9293.
  • Takagi R, Hutchinson F, Madden PA, et al. The structure of molten DyCl3 and DyNa3Cl6 simulated with polarizable- and rigid-ion models. J Phys Condens Matter. 1999;11:645–658.
  • Okamoto Y, Yaita T, Minato K. High-temperature XAFS study of solid and molten SrCl2. J Non-Crystalline Solids. 2004;333:182–186.
  • Bunten RAJ, McGreevy RL, Mitchell EWJ, et al. Collective modes in molten alkaline-earth chlorides: I. Light scattering. J Phys C: Solid State Phys. 1984;17:4705–4724.
  • Margaca FMA, McGreevy RL, Mitchell EWJ. Collective modes in molten alkaline-earth chlorides: 11. Inelastic neutron scattering from molten SrCl2. J Phys C: Solid State Phys. 1984;17:4725–4739.
  • McGreevy RL, Mitchell EWJ. The determination of the partial pair distribution functions for molten strontium chloride. J Phys C: Solid State Phys. 1982;15:5537–5550.
  • de Leeuw SW. Computer simulation of alkaline earth halides. Mol Phys. 1979;37(489–500):489–500.
  • Fomin YD. Melting line and thermodynamic properties of a supeionic compound SrCl2 by molecular dynamics simulation. 2020;arXiv:2001.07112.
  • Dixon M. Molecular dynamics simulation of fast-ion conduction in SrCl2. II. Distribution of ions and specific heat anomaly. J Phys C. 1980;13:1919–1929.
  • Gillan MJ, Dixon M. Molecular dynamics simulation of fast-ion conduction in SrCl2. I. Self-diffusion. J Phys C. 1980;13:1901–1917.
  • Demmel F, Hosokawa S, Lorenzen M, et al. Propagating particle density fluctuations in molten NaCl. Phys Rev B. 2004;69:012203.
  • Demmel F, Hosokawa S, Pilgrim W-C. Collective particle motions in molten KCl. J Alloys Compd. 2008;452:143–148.
  • Hosokawa S, Demmel F, Pilgrim W-C, et al. Acoustic phonons in molten NaI. Electrochemistry. 2009;77:608–610.
  • Demmel F, Hosokawa S, Pilgrim W-C, et al. Evidences for optic modes in molten NaI. Nucl Instrum Methods Phys Res B. 2005;238:98–101.
  • Demmel F, Szubrin D, Pilgrim W-C, et al. Transition from hydrodynamic to viscoelastic propagation of sound in molten RbBr. Phys Rev B. 2015;92:012307.
  • McGreevy RL. Experimental studies of the structure and dynamics of molten alkali and alkaline earth halides. Solid State Phys. 1987;40:247-325.
  • Hutchings MT, Clausen K, Dickens MH, et al. Investigation of thermally induced anion disorder in fluorites using neutron scattering techniques. J Phys C: Solid State Phys. 1984;17:3903–3940.
  • Raunio G, Rolandson S. Lattice dynamics of NaCl, KCl, RbCl, and RbF. Phys Rev B. 1970;2:2098.
  • Denham PA, Morse PLR, Wilkinson GR. The phonon dispersion curves, infra-red and Raman spectra of SrCl2. J Phys C. 1973;6:2066.
  • Sadoc A, Moussa F, Pepy G. The lattice dynamics of SrCl2. J Phys Chem Solids. 1976;37:197–199.
  • Ebbsjo I, Vashishta P, Dejus R, et al. Journal of physics C: solid state physics inelastic neutron scattering and dynamics of ions in the super-ionic conductor Ag2S. J Phys C. 1987;20:L441.
  • Hisano K, Tanaka H. A study of phonon anharmonicity in BaF2 thin films using the infrared emission technique. J Phys C. 1986;19:1509.
  • Gillan MJ, Dixon M. Journal of physics C: solid state physics quasi-elastic scattering in fast-ion conducting SrCl2: a molecular dynamics study. J Phys C. 1980;13:L835–9.
  • Gillan MJ. Collective dynamics in superionic CaF2: I. Simulation compared with neutron-scattering experiment. J Phys C. 1986;19:3391–3411.
  • Gillan MJ. Collective dynamics in super-ionic CaF2: II. Defect interpretation. J Phys C. 1986;19:3517–3533.
  • Kanchana V, Vaitheeswaran G, Souvatzis P, et al. Density functional study of the electronic structure and lattice dynamics of SrCl2. J Phys Condens Matter. 2010;22:445402.
  • Hansen JP, McDonald IR. Theory of simple liquids. London: Elsevier; 2013.
  • Rapaport DC. The art of molecular dynamics simulation. Cambridge: Cambridge University Press; 1995.
  • http://lammps.sandia.gov/S. Plimpton, fast parallel algorithms for short-range molecular dynamics. J Comp Phys. 1995;117:1–19.
  • Yang C, Dove MT, Brazhkin VV, et al. Emergence and evolution of the k gap in spectra of liquid and supercritical states. Phys Rev Lett. 2017;118:215502.
  • Brazhkin VV, Prescher C, Fomin YD, et al. Comment on “behavior of supercritical fluids across the Frenkel line”. J Phys Chem B. 2018;122(22):6124–6128.
  • Fomin YD, Ryzhov VN, Tsiok EN, et al. Crossover of collective modes and positive sound dispersion in supercritical state. J Phys Condens Matter. 2016;28:43LT01.
  • Fomin YD, Ryzhov VN, Tsiok EN, et al. Dynamics, thermodynamics and structure of liquids and supercritical fluids: crossover at the Frenkel line. J Phys Condens Matter. 2018;30:134003.

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