The Brownian motion in a tilted washboard potential subjected to a lowfrequency periodic drive develops large hysteresis loops, which attain their maximum at the locked-to-running transition in the underdamped regime. The dependence of such a critical phenomenon on the drive parameters and on the temperature is investigated numerically. Moreover, this hysteresis mechanism is related to the occurrence of random multiple jumps, whose length and time duration distributions appear to decay according to a universal power law with exponent alpha=1.5. This model may explain various instances of low-frequency excess damping in material science.
Critical Hysteresis in a Tilted Washboard Potential
BORROMEO, Marcello;
1999
Abstract
The Brownian motion in a tilted washboard potential subjected to a lowfrequency periodic drive develops large hysteresis loops, which attain their maximum at the locked-to-running transition in the underdamped regime. The dependence of such a critical phenomenon on the drive parameters and on the temperature is investigated numerically. Moreover, this hysteresis mechanism is related to the occurrence of random multiple jumps, whose length and time duration distributions appear to decay according to a universal power law with exponent alpha=1.5. This model may explain various instances of low-frequency excess damping in material science.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
