Regular and chaotic transport of discrete solitons in asymmetric potentials. J Cuevas, B Sanchez-Rey, M Salerno. Phys. Rev. E. 82(1):016604(1-11), July 2010.

Regular and chaotic transport of discrete solitons in asymmetric potentials.

J Cuevas, B Sánchez-Rey, M Salerno (pdf copy 2.5 Mb.)

Abstract:

Ratchet dynamics of topological solitons of the forced and damped discrete double sine-Gordon system are studied. Unidirectional transport occurring both in regular and in chaotic regions of the phase space and its dependence on damping, amplitude and frequency of the driver, asymmetry parameter, coupling constant, has been extensively investigated. We show that the passage from ratchet phase-locked regime to chaotic ratchets occurs via a period doubling route to chaos and that, quite surprisingly, pinned states can exist inside phase-locking and chaotic transport regions for intermediate values of the coupling constant. The possibility to control chaotic discrete soliton ratchets by means of both small subharmonic signals and more general periodic drivers, has also been investigated.

Phys. Rev. E. 82(1):016604(1-11), July 2010. DOI:10.1103/PhysRevE.82.016604