Biased molecular dynamics

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The probability density for a geometric parameter ξ of the system driven by a Hamiltonian:

with T(p), and V(q) being kinetic, and potential energies, respectively, can be written as:

The term stands for a thermal average of quantity X evaluated for the system driven by the Hamiltonian H.

If the system is modified by adding a bias potential acting only on a selected internal parameter of the system ξ=ξ(q), the Hamiltonian takes a form:

and the probability density of ξ in the biased ensemble is:

It can be shown that the biased and unbiased averages are related via a simple formula:

More generally, an observable :

can be expressed in terms of thermal averages within the biased ensemble:

Simulation methods such as umbrella sampling[1] use a bias potential to enhance sampling of ξ in regions with low Pi) such as transition regions of chemical reactions. The correct distributions are recovered afterwards using the equation for above.

A more detailed description of the method can be found in Ref.[2]. Biased molecular dynamics can be used also to introduce soft geometric constraints in which the controlled geometric parameter is not strictly constant, instead it oscillates in a narrow interval of values.


  • For a biased molecular dynamics run with Andersen thermostat, one has to:
  1. Set the standard MD-related tags: IBRION=0, TEBEG, POTIM, and NSW
  2. Set MDALGO=11, and choose an appropriate setting for ANDERSEN_PROB
  3. In order to avoid updating of the bias potential, set HILLS_BIN=NSW
  4. Define collective variables in the ICONST-file, and set the STATUS parameter for the collective variables to 5
  5. Define the bias potential in the PENALTYPOT-file

The values of all collective variables for each MD step are listed in the REPORT-file, check the lines after the string Metadynamics.

  1. Cite error: Invalid <ref> tag; no text was provided for refs named Torrie77
  2. Cite error: Invalid <ref> tag; no text was provided for refs named FrenkelSmit