„Der Klang von thermischer Zitterbewegung in der Physik von gestern – heute – und morgen“
Prof. Dr. Peter, Hänggi (Institut für Physik, Universität Augsburg)

Noise is usually thought of as the enemy of order rather than of a constructive influence. For the phenomena of Stochastic Resonance [1] and Brownian motors [2], however, stochastic noise can play a beneficial role in enhancing detection and/or facilitating directed transmission of information in absence of biasing forces. Brownian motion assisted Stochastic Resonance finds useful applications in physical, technological, biological and biomedical contexts [1, 3]. The basic principles that underpin Stochastic Resonance are elucidated and novel applications for nonlinear classical and quantum systems will be addressed. The presence of non-equilibrium disturbances enables to rectify Brownian motion so that quantum and classical objects can be directed around on a priori designed routes in biological and physical systems (Brownian motors). In doing so, the energy from the haphazard motion of (classical and quantum) Brownian particles is extracted to perform useful work against an external load. This very concept together with first experimental realizations are discussed [2, 4, 5].
[1] L. Gammaitoni, P. Hänggi, P. Jung and F. Marchesoni, Stochastic Resonance, Rev. Mod.Phys. 70, 223 (1998).
[2] R. D. Astumian and P. Hänggi, Brownian motors, Physics Today 55 (11), 33 (2002).
[3] P. Hänggi, Stochastic Resonance in Physics and Biology, ChemPhysChem 3, 285 (2002).
[4] H. Linke, editor, Special Issue on Brownian Motors, Applied Physics A 75, No. 2 (2002).
[5] P. Hänggi, F. Marchesoni, F. Nori, Brownian motors, Ann. Physik (Berlin) 14, 51 (2005).