Gabriele Fornasier scite author profile

Gabriele Fornasier

2Publications

22Citation Statements Received

153Citation Statements Given

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152

Affiliations

Consorzio per l'AREA di Ricerca Scientifica e Tecnologica di Trieste, University of Trieste, University of Milan

Publications

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Subharmonic Shapiro steps of sliding colloidal monolayers in optical lattices

Ticco

Fornasier

Manini

et al. 2016

J. Phys.: Condens. Matter

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Abstract. We investigate theoretically the possibility to observe dynamical mode locking, in the form of Shapiro steps, when a time-periodic potential or force modulation is applied to a two-dimensional (2D) lattice of colloidal particles that are dragged by an external force over an optically generated periodic potential. Here we present realistic molecular dynamics simulations of a 2D experimental setup, where the colloid sliding is realized through the motion of soliton lines between locally commensurate patches or domains, and where the Shapiro steps are predicted and analyzed. Interestingly, the jump between one step and the next is seen to correspond to a fixed number of colloids jumping from one patch to the next, across the soliton line boundary, during each AC cycle. In addition to ordinary "integer" steps, coinciding here with the synchronous rigid advancement of the whole colloid monolayer, our main prediction is the existence of additional smaller "subharmonic" steps due to localized solitonic regions of incommensurate layers executing synchronized slips, while the majority of the colloids remains pinned to a potential minimum. The current availability and wide parameter tunability of colloid monolayers makes these predictions potentially easy to access in an experimentally rich 2D geometrical configuration.

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Tuning graphene doping by carbon monoxide intercalation at the Ni(111) interface

Puppo

Carnevali

Perilli

et al. 2021

Carbon

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