Ice III: Difference between revisions

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'''Ice III''' was discovered by Gustav Tammann in 1900 (Ref. 1). The ordered form of ice III is known as [[ice IX]].
'''Ice III''' was discovered by Gustav Tammann in 1900 <ref>[http://dx.doi.org/10.1002/andp.19003070502 G. Tammann "Ueber die Grenzen des festen Zustandes IV", Annalen der Physik '''2''' pp. 1-31 (1900)]</ref>. The ordered form of ice III is known as [[ice IX]]. Ice III is stable in the region of 240 K - 260 K and for [[pressure]]s between 2.2 and 3.4 kbar <ref>[http://dx.doi.org/10.1063/1.481282 Colin Lobban, John L. Finney and Werner F. Kuhs "The structure and ordering of ices III and V", Journal of Chemical Physics '''112''' 7169 (2000)]</ref>.
==Radial distribution function==
[[Radial distribution function]] of ice III for the [[SPC/E model of water|SPC/E]], [[TIP4P model of water |TIP4P]] and [[TIP5P model of water | TIP5P]] models <ref>[http://dx.doi.org/10.1039/b418934e Carlos Vega, Carl McBride, Eduardo Sanz and Jose L. F. Abascal "Radial distribution functions and densities for the SPC/E, TIP4P and TIP5P models for liquid water and ices Ih, Ic, II, III, IV, V, VI, VII, VIII, IX, XI and XII", Physical Chemistry Chemical Physics '''7''' pp. 1450-1456 (2005)]</ref> and in Fig 3b of <ref name="dielectric">[http://dx.doi.org/10.1021/jp105975c J. L. Aragones, L. G. MacDowell, and C. Vega "Dielectric Constant of Ices and Water: A Lesson about Water Interactions", Journal of Physical Chemistry A (2010)]</ref>for the [[TIP4P/2005 model of water |TIP4P/2005 model]].
==Equation of state==
[[Equations of state | Equation of state]] <ref>[http://dx.doi.org/10.1021/jp0743121 E. G. Noya, C. Menduiña, J. L. Aragones, and C. Vega "Equation of State, Thermal Expansion Coefficient, and Isothermal Compressibility for Ices Ih, II, III, V, and VI, as Obtained from Computer Simulation", Journal of Physical Chemistry C '''111''' pp. 15877-15888 (2007)]</ref>
==Dielectric constant==
Values for the  dielectric constant are given in Table 4 of <ref name="dielectric"> </ref> for the [[SPC/E model of water|SPC/E]], [[TIP4P/2005 model of water |TIP4P/2005]], [[TIP4P/Ice model of water |TIP4P/Ice]] and [[TIP5P model of water | TIP5P]] models.
==References==
==References==
#[http://dx.doi.org/10.1002/andp.19003070502 G. Tammann "Ueber die Grenzen des festen Zustandes IV", Annalen der Physik '''2''' pp. 1-31 (1900)]
<references/>
#[http://dx.doi.org/10.1039/b418934e Carlos Vega, Carl McBride, Eduardo Sanz and Jose L. F. Abascal "Radial distribution functions and densities for the SPC/E, TIP4P and TIP5P models for liquid water and ices Ih, Ic, II, III, IV, V, VI, VII, VIII, IX, XI and XII", Physical Chemistry Chemical Physics '''7''' pp. 1450 - 1456 (2005)]
;Related reading
#[http://dx.doi.org/10.1021/jp0743121 E. G. Noya, C. Menduiña, J. L. Aragones, and C. Vega "Equation of State, Thermal Expansion Coefficient, and Isothermal Compressibility for Ices Ih, II, III, V, and VI, as Obtained from Computer Simulation", Journal of Physical Chemistry C '''111''' pp. 15877 - 15888 (2007)]
*[http://dx.doi.org/10.1063/1.4944612  Jiří Kolafa "Residual entropy of ice III from Monte Carlo simulation", Journal of Chemical Physics '''144''' 124509 (2016)]
 
 
[[category: water]]
[[category: water]]

Latest revision as of 14:20, 5 April 2016

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Ice III was discovered by Gustav Tammann in 1900 [1]. The ordered form of ice III is known as ice IX. Ice III is stable in the region of 240 K - 260 K and for pressures between 2.2 and 3.4 kbar [2].

Radial distribution function[edit]

Radial distribution function of ice III for the SPC/E, TIP4P and TIP5P models [3] and in Fig 3b of [4]for the TIP4P/2005 model.

Equation of state[edit]

Equation of state [5]

Dielectric constant[edit]

Values for the dielectric constant are given in Table 4 of [4] for the SPC/E, TIP4P/2005, TIP4P/Ice and TIP5P models.

References[edit]

  1. G. Tammann "Ueber die Grenzen des festen Zustandes IV", Annalen der Physik 2 pp. 1-31 (1900)
  2. Colin Lobban, John L. Finney and Werner F. Kuhs "The structure and ordering of ices III and V", Journal of Chemical Physics 112 7169 (2000)
  3. Carlos Vega, Carl McBride, Eduardo Sanz and Jose L. F. Abascal "Radial distribution functions and densities for the SPC/E, TIP4P and TIP5P models for liquid water and ices Ih, Ic, II, III, IV, V, VI, VII, VIII, IX, XI and XII", Physical Chemistry Chemical Physics 7 pp. 1450-1456 (2005)
  4. 4.0 4.1 J. L. Aragones, L. G. MacDowell, and C. Vega "Dielectric Constant of Ices and Water: A Lesson about Water Interactions", Journal of Physical Chemistry A (2010)
  5. E. G. Noya, C. Menduiña, J. L. Aragones, and C. Vega "Equation of State, Thermal Expansion Coefficient, and Isothermal Compressibility for Ices Ih, II, III, V, and VI, as Obtained from Computer Simulation", Journal of Physical Chemistry C 111 pp. 15877-15888 (2007)
Related reading
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