Add to ORKGThe directed transport of an overdamped Brownian motor moving in a spatially periodic potential that lacks reflection symmetry (i.e. a ratchet potential) is studied when driven by thermal and dichotomic nonequilibrium noise in the presence of an external, constant load force. We consider both, the classical and the quantum tunneling assisted regimes. The current-load characteristics are investigated as a function of the system parameters like the load force, the temperature and the amplitude strength of the applied two-state noise
Ratchet models provide an useful mechanism for directed transport using nonequilibrium fluctuations ...
In a previous work, we described transport in a classical, externally driven, overdamped ratchet. A ...
We study, within the spin-boson dynamics, the synchronization of a quantum tunneling system with an ...
We study the transport properties of an overdamped Brownian particle which is simultaneously in cont...
We examine the stochastic energetics of directed quantum transport due to rectification of nonequili...
We rigorously investigate the quantum dissipative dynamics of a ratchet system de-scribed by a perio...
We analyze the problem of directed quantum transport induced by external exponentially correlated te...
In this thesis, ratchet systems operating in the quantum regime are investigated. Ratchet systems, a...
Overdamped directed motion of Brownian motors in a spatially periodic system, induced by Poissonian...
In systems possessing a spatial or dynamical symmetry breaking thermal Brownian motion combined with...
Diffusive transport properties of a quantum Brownian particle moving in a tilted spatially periodic ...
Different proposals for adiabatic quantum motors (AQMs) driven by DC currents have recently attracte...
Quantum Brownian motion in ratchet potentials is investigated by means of an approach based on a dua...
The transport properties of Brownian motors have attracted many attention in the last years. The vas...
The mobility and the diffusion coefficient of a particle on a biased tight-binding lattice in the pr...
Ratchet models provide an useful mechanism for directed transport using nonequilibrium fluctuations ...
In a previous work, we described transport in a classical, externally driven, overdamped ratchet. A ...
We study, within the spin-boson dynamics, the synchronization of a quantum tunneling system with an ...
We study the transport properties of an overdamped Brownian particle which is simultaneously in cont...
We examine the stochastic energetics of directed quantum transport due to rectification of nonequili...
We rigorously investigate the quantum dissipative dynamics of a ratchet system de-scribed by a perio...
We analyze the problem of directed quantum transport induced by external exponentially correlated te...
In this thesis, ratchet systems operating in the quantum regime are investigated. Ratchet systems, a...
Overdamped directed motion of Brownian motors in a spatially periodic system, induced by Poissonian...
In systems possessing a spatial or dynamical symmetry breaking thermal Brownian motion combined with...
Diffusive transport properties of a quantum Brownian particle moving in a tilted spatially periodic ...
Different proposals for adiabatic quantum motors (AQMs) driven by DC currents have recently attracte...
Quantum Brownian motion in ratchet potentials is investigated by means of an approach based on a dua...
The transport properties of Brownian motors have attracted many attention in the last years. The vas...
The mobility and the diffusion coefficient of a particle on a biased tight-binding lattice in the pr...
Ratchet models provide an useful mechanism for directed transport using nonequilibrium fluctuations ...
In a previous work, we described transport in a classical, externally driven, overdamped ratchet. A ...
We study, within the spin-boson dynamics, the synchronization of a quantum tunneling system with an ...