N-6 Lennard-Jones potential: Difference between revisions

The n-6 Lennard-Jones potential is a variant the more well known Lennard-Jones model (or from a different point of view, a particular case of the Mie potential). The potential is given by ^[1]:

${\displaystyle \Phi _{12}(r)=\epsilon \left({\frac {n}{n-6}}\right)\left({\frac {n}{6}}\right)^{\frac {6}{n-6}}\left[\left({\frac {\sigma }{r}}\right)^{n}-\left({\frac {\sigma }{r}}\right)^{6}\right]}$

where

• ${\displaystyle r:=|\mathbf {r} _{1}-\mathbf {r} _{2}|}$
• ${\displaystyle \Phi _{12}(r)}$ is the intermolecular pair potential between two particles, "1" and "2".
• ${\displaystyle \sigma }$ is the diameter (length), i.e. the value of ${\displaystyle r}$ at which ${\displaystyle \Phi _{12}(r)=0}$
• ${\displaystyle \epsilon }$ is the well depth (energy)

Melting point

An approximate method to locate the melting point is given in ^[2]. See also ^[3].

Shear viscosity

^[4]

References

Related reading

• Zane Shi, Pablo G. Debenedetti, Frank H. Stillinger, and Paul Ginart "Structure, dynamics, and thermodynamics of a family of potentials with tunable softness", Journal of Chemical Physics 135 084513 (2011)