Jose Luis F. Abascal
Title
Cited by
Cited by
Year
A general purpose model for the condensed phases of water: TIP4P/2005
JLF Abascal, C Vega
The Journal of chemical physics 123 (23), 234505, 2005
24792005
A potential model for the study of ices and amorphous water: TIP4P/Ice
JLF Abascal, E Sanz, R García Fernández, C Vega
The Journal of chemical physics 122 (23), 234511, 2005
7742005
Simulating water with rigid non-polarizable models: a general perspective
C Vega, JLF Abascal
Physical Chemistry Chemical Physics 13 (44), 19663-19688, 2011
6872011
What ice can teach us about water interactions: a critical comparison of the performance of different water models
C Vega, JLF Abascal, MM Conde, JL Aragones
Faraday discussions 141, 251-276, 2009
4002009
The melting point of ice for common water models calculated from direct coexistence of the solid-liquid interface
R García Fernández, JLF Abascal, C Vega
The Journal of chemical physics 124 (14), 144506, 2006
3522006
The melting temperature of the most common models of water
C Vega, E Sanz, JLF Abascal
The Journal of chemical physics 122 (11), 114507, 2005
3492005
Phase diagram of water from computer simulation
E Sanz, C Vega, JLF Abascal, LG MacDowell
Physical review letters 92 (25), 255701, 2004
3042004
Determination of phase diagrams via computer simulation: methodology and applications to water, electrolytes and proteins
C Vega, E Sanz, JLF Abascal, EG Noya
Journal of Physics: Condensed Matter 20 (15), 153101, 2008
2882008
Widom line and the liquid–liquid critical point for the TIP4P/2005 water model
JLF Abascal, C Vega
The Journal of Chemical Physics 133 (23), 234502, 2010
2662010
The shear viscosity of rigid water models
MA González, JLF Abascal
The Journal of chemical physics 132 (9), 096101, 2010
2212010
Vapor-liquid equilibria from the triple point up to the critical point for the new generation of TIP4P-like models: TIP4P/Ew, TIP4P/2005, and TIP4P/ice
C Vega, JLF Abascal, I Nezbeda
The Journal of chemical physics 125 (3), 034503, 2006
2192006
Homogeneous ice nucleation at moderate supercooling from molecular simulation
E Sanz, C Vega, JR Espinosa, R Caballero-Bernal, JLF Abascal, ...
Journal of the American Chemical Society 135 (40), 15008-15017, 2013
2022013
Anomalies in water as obtained from computer simulations of the TIP4P/2005 model: density maxima, and density, isothermal compressibility and heat capacity minima
HL Pi, JL Aragones, C Vega, EG Noya, JLF Abascal, MA Gonzalez, ...
Molecular Physics 107 (4-6), 365-374, 2009
1372009
Relation between the melting temperature and the temperature of maximum density for the most common models of water
C Vega, JLF Abascal
The Journal of chemical physics 123 (14), 144504, 2005
1312005
The Voronoi polyhedra as tools for structure determination in simple disordered systems
JCG Montoro, JLF Abascal
The Journal of Physical Chemistry 97 (16), 4211-4215, 1993
1271993
A flexible model for water based on TIP4P/2005
MA González, JLF Abascal
The Journal of chemical physics 135 (22), 224516, 2011
1242011
Radial distribution functions and densities for the SPC/E, TIP4P and TIP5P models for liquid water and ices I h, I c, II, III, IV, V, VI, VII, VIII, IX, XI and XII
C Vega, C McBride, E Sanz, JLF Abascal
Physical Chemistry Chemical Physics 7 (7), 1450-1456, 2005
1172005
Can simple models describe the phase diagram of water?
C Vega, JLF Abascal, E Sanz, LG MacDowell, C McBride
Journal of Physics: Condensed Matter 17 (45), S3283, 2005
1062005
Heat capacity of water: A signature of nuclear quantum effects
C Vega, MM Conde, C McBride, JLF Abascal, EG Noya, R Ramírez, ...
The Journal of chemical physics 132 (4), 046101, 2010
922010
Tracing the phase diagram of the four-site water potential (TIP4P)
E Sanz, C Vega, JLF Abascal, LG MacDowell
The Journal of chemical physics 121 (2), 1165-1166, 2004
902004
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Articles 1–20