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Berendsen thermostat

From Wikipedia, the free encyclopedia

The Berendsen thermostat[1] is an algorithm to re-scale the velocities of particles in molecular dynamics simulations to control the simulation temperature.

Basic description

In this scheme, the system is weakly coupled to a heat bath with some temperature. The thermostat suppresses fluctuations of the kinetic energy of the system and therefore cannot produce trajectories consistent with the canonical ensemble. The temperature of the system is corrected such that the deviation exponentially decays with some time constant .

Though the thermostat does not generate a correct canonical ensemble (especially for small systems), for large systems on the order of hundreds or thousands of atoms/molecules, the approximation yields roughly correct results for most calculated properties.[2] The scheme is widely used due to the efficiency with which it relaxes a system to some target (bath) temperature. In many instances, systems are initially equilibrated using the Berendsen scheme, while properties are calculated using the widely known Nosé–Hoover thermostat, which correctly generates trajectories consistent with a canonical ensemble. However, the Berendsen thermostat can result in the  flying ice cube effect, an artifact which can be eliminated by using the more rigorous Bussi–Donadio–Parrinello[3] thermostat; for this reason, it has been recommended that usage of the Berendsen thermostat be discontinued in almost all cases except for replication of prior studies.[4]

See also

References

  1. ^ Berendsen, H. J. C.; Postma, J. P. M.; van Gunsteren, W. F.; DiNola, A.; Haak, J. R. (1984). "Molecular-Dynamics with Coupling to an External Bath" (PDF). Journal of Chemical Physics. 81 (8): 3684–3690. Bibcode:1984JChPh..81.3684B. doi:10.1063/1.448118. hdl:11370/93b3d75f-03d3-4385-98b7-c5d1347f9bbc. S2CID 18356184.
  2. ^ Morishita, T. (2000). "Fluctuation formulas in molecular-dynamics simulations with the weak coupling heat bath". The Journal of Chemical Physics. 113 (8): 2976–2982. Bibcode:2000JChPh.113.2976M. doi:10.1063/1.1287333.
  3. ^ Bussi, Giovanni; Donadio, Davide; Parrinello, Michele (2007-01-07). "Canonical sampling through velocity rescaling". The Journal of Chemical Physics. 126 (1): 014101. arXiv:0803.4060. Bibcode:2007JChPh.126a4101B. doi:10.1063/1.2408420. ISSN 0021-9606. PMID 17212484. S2CID 23411901.
  4. ^ Braun, E.; Moosavi, S. M.; Smit, B. (2018). "Anomalous Effects of Velocity Rescaling Algorithms: The Flying Ice Cube Effect Revisited". Journal of Chemical Theory and Computation. 14 (10): 5262–5272. arXiv:1805.02295. doi:10.1021/acs.jctc.8b00446. PMID 30075070. S2CID 51910357.


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This page was last edited on 3 October 2023, at 14:33
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