Quantum-Mechanical Relation between Atomic Dipole Polarizability and the van der Waals Radius

Dmitry V. Fedorov, Mainak Sadhukhan, Martin Stöhr, and Alexandre Tkatchenko
Phys. Rev. Lett. 121, 183401 – Published 2 November 2018
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Abstract

The atomic dipole polarizability α and the van der Waals (vdW) radius RvdW are two key quantities to describe vdW interactions between atoms in molecules and materials. Until now, they have been determined independently and separately from each other. Here, we derive the quantum-mechanical relation RvdW=const×α1/7, which is markedly different from the common assumption RvdWα1/3 based on a classical picture of hard-sphere atoms. As shown for 72 chemical elements between hydrogen and uranium, the obtained formula can be used as a unified definition of the vdW radius solely in terms of the atomic polarizability. For vdW-bonded heteronuclear dimers consisting of atoms A and B, the combination rule α=(αA+αB)/2 provides a remarkably accurate way to calculate their equilibrium interatomic distance. The revealed scaling law allows us to reduce the empiricism and improve the accuracy of interatomic vdW potentials, at the same time suggesting the existence of a nontrivial relation between length and volume in quantum systems.

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  • Received 3 April 2018

DOI:https://doi.org/10.1103/PhysRevLett.121.183401

© 2018 American Physical Society

Physics Subject Headings (PhySH)

Atomic, Molecular & Optical

Authors & Affiliations

Dmitry V. Fedorov*, Mainak Sadhukhan, Martin Stöhr, and Alexandre Tkatchenko

  • Physics and Materials Science Research Unit, University of Luxembourg, L-1511 Luxembourg

  • *dmitry.fedorov@uni.lu

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Issue

Vol. 121, Iss. 18 — 2 November 2018

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