Bereiche | Tage | Auswahl | Suche | Downloads | Hilfe
AM: Magnetismus
AM 12: Mikromagnetismus, Magnetisierungsprozesse und Domänenstrukturen I
AM 12.6: Vortrag
Mittwoch, 25. März 1998, 16:15–16:30, H23
Calculation of the energy barriers in strongly interacting many-particle systems — •D.V. Berkov — INNOVENT e.V., Goeschwitzer Str. 22, D-07745 Jena, Germany
We present a new numerical method for the
evaluation of the energy barriers between various
local energy minima in strongly interacting classical
many-particle systems with continuous degrees of freedom (’usual’
particles, vector spin glasses, dipolar glasses, systems of
fine magnetic particles etc.). The method is based on the
minimization of the action derived from the Onsager-Machlup functional
[1] for the transition probability between the
two given local minima. The corresponding minimization provides
a discrete representation of the optimal transition trajectory
between the two chosen states. The energy barrier between these states
is then evaluated as the barrier along this optimal trajectory.
Special care should be taken to extract the ’true’ optimal
trajectories (i.e., trajectories which pass through the saddle points)
from a large variety of paths providing the local extrema to the action
functional. Special algorithm designed for this purpose is described
and tested on several model systems.
Implementations of the algorithm for (i) the evaluation of the energy
barrier distribution and (ii) the simulation of the time dependence
of the system magnetization in disordered many-particle systems are
suggested. Results for the dipolar magnetic glass are presented.
[1] L.Onsager, S.Machlup, Phys. Rev., 91, 1505 (1953)