Add to ORKGThe pumps and ratchets are benchmark prototypes of systems that generate directed trans- port. In this work we introduce a possible hybrid between these systems, using a model in a Hamiltonian fashion, that combines a spatially periodic static potential with a local driving, with different possibilities of space inversion and time reversal symmetry breaking. In this way, we found manifestations of irregular scattering that leads to net current generation for three types of general models of punchets found, in terms of the way they break the symmetries. Also, is showed how this currents depends on the symmetry manipulation parameters of the model. Further, an approximation to the quantum version of punchets shows discrete energy shift...
Directed transport in ratchets is determined by symmetry breaking in a system out of equilibrium. A ...
We study the response of a Bose-Einstein condensate to an unbiased periodic driving potential. By co...
doi:10.1088/1367-2630/10/1/013008 Abstract. We study the rectification process of interacting quantu...
We investigate the ratchet current that appears in a kicked Hamiltonian system when the period of th...
We consider a paradigmatic model of quantum pumps and discuss its rectification properties in the fr...
We consider a particle in a spatial symmetric/asymmetric potential driven by time periodic bichromat...
Ratchets are devices that are able to rectify an otherwise oscillatory behavior by exploiting an asy...
Equations describing the evolution of particles, solitons, or localized structures, driven by a zero...
Equations describing the evolution of particles, solitons, or localized structures, driven by a zero...
Ratchets are devices that are able to rectify an otherwise oscillatory behavior by exploiting an asy...
We investigate the effect of the nonlinear interaction on the quantum resonance ratchet for the peri...
Ratchets are devices that operate away from thermal equilibrium and can rec-tify zero-mean perturbat...
In a previous work, we described transport in a classical, externally driven, overdamped ratchet. A ...
Ratcheting is a mechanism that produces directional transport of particles by rectifying nondirectio...
We study the quantum version of a tilting and flashing Hamiltonian ratchets, consisting of a periodi...
Directed transport in ratchets is determined by symmetry breaking in a system out of equilibrium. A ...
We study the response of a Bose-Einstein condensate to an unbiased periodic driving potential. By co...
doi:10.1088/1367-2630/10/1/013008 Abstract. We study the rectification process of interacting quantu...
We investigate the ratchet current that appears in a kicked Hamiltonian system when the period of th...
We consider a paradigmatic model of quantum pumps and discuss its rectification properties in the fr...
We consider a particle in a spatial symmetric/asymmetric potential driven by time periodic bichromat...
Ratchets are devices that are able to rectify an otherwise oscillatory behavior by exploiting an asy...
Equations describing the evolution of particles, solitons, or localized structures, driven by a zero...
Equations describing the evolution of particles, solitons, or localized structures, driven by a zero...
Ratchets are devices that are able to rectify an otherwise oscillatory behavior by exploiting an asy...
We investigate the effect of the nonlinear interaction on the quantum resonance ratchet for the peri...
Ratchets are devices that operate away from thermal equilibrium and can rec-tify zero-mean perturbat...
In a previous work, we described transport in a classical, externally driven, overdamped ratchet. A ...
Ratcheting is a mechanism that produces directional transport of particles by rectifying nondirectio...
We study the quantum version of a tilting and flashing Hamiltonian ratchets, consisting of a periodi...
Directed transport in ratchets is determined by symmetry breaking in a system out of equilibrium. A ...
We study the response of a Bose-Einstein condensate to an unbiased periodic driving potential. By co...
doi:10.1088/1367-2630/10/1/013008 Abstract. We study the rectification process of interacting quantu...