# Fundamental-measure theory

**Fundamental-measure theory**

## Rosenfeld[edit]

^{[1]}

## Modified fundamental measure theory-White Bear I[edit]

Modified fundamental measure theory-White Bear I ^{[2]}
^{[3]}
^{[4]} uses the Mansoori, Carnahan, Starling, and Leland equation of state for multicomponent and polydisperse hard-sphere mixtures.

## White Bear II[edit]

White Bear II ^{[5]}.

## References[edit]

- ↑ Yaakov Rosenfeld "Free-energy model for the inhomogeneous hard-sphere fluid mixture and density-functional theory of freezing", Physical Review Letters
**63**980-983 (1989) - ↑ R. Roth, R. Evans, A. Lang, and G. Kahl "Fundamental measure theory for hard-sphere mixtures revisited: the White Bear version", Journal of Physics: Condensed Matter
**14**pp. 12063 (2002) ( http://whitebear-bristol.co.uk/ ) - ↑ Yang-Xin Yu and Jianzhong Wu "Structures of hard-sphere fluids from a modified fundamental measure theory", Journal of Chemical Physics
**117**pp. 10156-10164 (2002) - ↑ Yang-Xin Yu, Jianzhong Wu, Yu-Xuan Xin and Guang-Hua Gao "Structures and correlation functions of multicomponent and polydisperse hard-sphere mixtures from a density functional theory", Journal of Chemical Physics
**121**pp. 1535-1541 (2004) - ↑ Hendrik Hansen-Goos and Roland Roth "Density functional theory for hard-sphere mixtures: the White Bear version mark II", Journal of Physics: Condensed Matter
**18**pp. 8413-8426 (2006)

- Related reading

- E. Kierlik and M. L. Rosinberg "Free-energy density functional for the inhomogeneous hard-sphere fluid: Application to interfacial adsorption", Physical Review A
**42**pp. 3382 - 3387 (1990) - P. Tarazona, J.A. Cuesta and Y. Martínez-Ratón "Density Functional Theories of Hard Particle Systems", in "Theory and Simulation of Hard-Sphere Fluids and Related Systems", Lecture Notes in Physics
**753/2008**pp. 247-341 Springer (2008) - Roland Roth "Fundamental measure theory for hard-sphere mixtures: a review", Journal of Physics: Condensed Matter
**22**063102 (2010) - R. Evans "Density Functional Theory for Inhomogeneous Fluids I: Simple FLuids in Equlibrium", Lecture notes at 3rd Warsaw School of Statistical Physics, Kazimierz Dolny, June 2009 pp. 43-85 Warsaw University Press (2010)