Q-TIP4P/F model of water: Difference between revisions

The q-TIP4P/F model ^[1] is a flexible version of the TIP4P/2005 model of water designed for use in path integral simulations.

Melting point[edit]

The melting point was found to be ${\displaystyle 251\pm 1.5~K}$ at 1 bar via direct coexistence calculations, and at 257K from calculations of the Gibbs energy function ^[2].

Isotope effects[edit]

Melting point (extract from the Ice Ih page)

${\displaystyle T_{m}}$ (D20)	Pressure	Water model/technique	Reference
${\displaystyle 257.5(5)~K}$	1 bar	q-TIP4P/F	[3]
${\displaystyle 276.83\pm 0.02K}$	1 bar	experimental value	[4]

${\displaystyle T_{m}}$ (T20)	Pressure	Water model/technique	Reference
${\displaystyle 259.2(5)~K}$	1 bar	q-TIP4P/F	[3]
${\displaystyle 277.64K}$	0.6629 kPa	experimental value	[5]

It is worth pointing out that the calculations presented in the work of Ramírez and Herrero ^[3] used the melting point of the q-TIP4P/F model as its "reference state". It is perhaps more fruitful to examine the relative changes upon isotopic substitution: ${\displaystyle \Delta T_{m}(D_{2}O-H_{2}0)=6.5K}$ (experimental value: 3.68 K) and ${\displaystyle \Delta T_{m}(T_{2}O-H_{2}0)=8.2K}$ (experimental value: 4.49 K).

Ice Ih[edit]

Isotope effects have also been studied for ice Ih ^[6].

References[edit]