M. Borromeo scite author profile

The rectification efficiency of an underdamped ratchet operated in the adiabatic regime increases according to a scaling current-amplitude curve as the damping constant approaches a critical threshold; below threshold the rectified signal becomes extremely irregular and eventually its time average drops to zero. Periodic (locked) and diffusive (fully chaotic) trajectories coexist on fine tuning the amplitude of the input signal. The transition from regular to chaotic transport in noiseless ratchets has been studied numerically.

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Particle transport in a two-dimensional septate channel

Borromeo

Marchesoni

2010

Chemical Physics

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Noise-assisted transport on symmetric periodic substrates

Borromeo

Marchesoni²

2005

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The rectification of a massive Brownian particle moving on a periodic substrate can be achieved in the absence of spatial asymmetry, by having recourse to (at least) two periodic, zero-mean input signals. We determine the relevant drift current under diverse operation conditions, namely, additive and multiplicative couplings, adiabatic and fast oscillating drives, and propagating substrate modulations. Distinct rectification mechanisms result from the interplay of noise and commensuration of the input frequencies, mediated through the nonlinearity of the substrate. These mechanisms are then extended to characterize soliton transport along a directed multistable chain. As the side-wise soliton diffusion is ultimately responsible for the transverse diffusion of such chains, our approach provides a full account of the Brownian motion of both pointlike and linear objects on a periodic substrate.

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M. Borromeo

Effects of short-range correlations on the self-energy in the optical model of finite nuclei

Deterministic ratchets: Route to diffusive transport

Particle transport in a two-dimensional septate channel

Noise-assisted transport on symmetric periodic substrates

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