Dynamics of melting and stability of ice 1h: Molecular-dynamics simulations of the SPC/E model of water
- 6 May 2002
- journal article
- conference paper
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 116 (20) , 8876-8880
- https://doi.org/10.1063/1.1471556
Abstract
Ice 1h is studied by molecular-dynamics simulations using the SPC/E model of water. The simulations were carried out in the constant stress, constant temperature ensemble, over a range of temperature and external pressure. By heating the system at 10 K intervals every 100 ps, we establish an upper bound for the stability of the ice 1h structure at 1 atmosphere to be below 260 K for the SPC/E model. The shape of the crystal lattice does not change significantly from the ideal hexagonal structure of ice 1h, even close to the melting transition. This is significant for future investigations of the ice–water interface using molecular simulations.Keywords
This publication has 42 references indexed in Scilit:
- Potential lattice dynamical simulations of iceChemical Physics, 2001
- The ice/water interface: Molecular dynamics simulations of the basal, prism, {202̄1}, and {21̄1̄0} interfaces of ice IhThe Journal of Chemical Physics, 2001
- Simulations of ice and liquid water over a range of temperatures using the fluctuating charge modelThe Journal of Chemical Physics, 2001
- Free energy calculations on systems of rigid molecules: An application to the TIP4P model of H2OThe Journal of Chemical Physics, 1999
- Simulations of H2O Solid, Liquid, and Clusters, with an Emphasis on Ferroelectric Ordering Transition in Hexagonal IceThe Journal of Physical Chemistry B, 1998
- Energetics of hydrogen ordering in icePhysica B: Condensed Matter, 1998
- Phase equilibria in extended simple point charge ice-water systemsThe Journal of Chemical Physics, 1995
- The ice/water interface: A molecular dynamics simulation using the simple point charge modelThe Journal of Chemical Physics, 1990
- The ice/water interface: A molecular dynamics simulation studyThe Journal of Chemical Physics, 1988
- The ice/water interfaceChemical Physics Letters, 1987