Recursively inseparable sets

The Buckingham potential is a formula proposed by Richard Buckingham which describes the Pauli repulsion energy and van der Waals energy ${\displaystyle \Phi _{12}(r)}$ for the interaction of two atoms that are not directly bonded as a function of the interatomic distance ${\displaystyle r}$.

${\displaystyle \Phi _{12}(r)=A\exp \left(-Br\right)-{\frac {C}{r^{6}}}}$

Here, ${\displaystyle A}$, ${\displaystyle B}$ and ${\displaystyle C}$ are constants. The two terms on the right-hand side constitute a repulsion and an attraction, because their first derivatives with respect to ${\displaystyle r}$ are negative and positive, respectively.

Buckingham proposed this as a simplification of the Lennard-Jones potential, in a theoretical study of the equation of state for gaseous helium, neon and argon.^[1]

As explained in Buckingham's original paper and, e.g., in section 2.2.5 of Jensen's text,^[2] the repulsion is due to the interpenetration of the closed electron shells. "There is therefore some justification for choosing the repulsive part (of the potential) as an exponential function". The Buckingham potential has been used extensively in simulations of molecular dynamics.

Because the exponential term converges to a constant as ${\displaystyle r}$→${\displaystyle 0}$, while the ${\displaystyle r^{-6}}$ term diverges, the Buckingham potential "turns over" as ${\displaystyle r}$ becomes small. This may be problematic when dealing with a structure with very short interatomic distances, as the nuclei that cross the turn-over will become strongly (and unphysically) bound to one another at a distance of zero.^[2]

References

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External links

• Buckingham potential on SklogWiki