Adiabatic edge-to-edge transformations in time-modulated elastic lattices and non-Hermitian shortcuts

The temporal modulation of a relevant parameter can be employed to induce modal transformations in Hermitian elastic lattices. When this is combined with a proper excitation mechanism, it allows to drive the energy transfer across the lattice with tunable propagation rates. Such a modal transformati...

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Veröffentlicht in:	New journal of physics 2021-09, Vol.23 (9), p.93008
Hauptverfasser:	Riva, Emanuele, Castaldini, Gianmaria, Braghin, Francesco
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Sprache:	eng
Schlagworte:	Adiabatic flow adiabatic pumping Behavior Electromagnetism Energy Energy transfer Mechanical oscillators Mechanics Modulation non-Hermitian Oscillators phononic crystal Physics Time dependence topological lattice Transformations Upper bounds
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description	The temporal modulation of a relevant parameter can be employed to induce modal transformations in Hermitian elastic lattices. When this is combined with a proper excitation mechanism, it allows to drive the energy transfer across the lattice with tunable propagation rates. Such a modal transformation, however, is limited by the adiabaticity of the process, which dictates an upper bound for the modulation speed. In this manuscript, we employ a non-Hermitian shortcut by way of a tailored gain and loss to violate the adiabatic limit and, therefore, to achieve superfast modal transformations. A quantitative condition for adiabaticity is firstly derived and numerically verified for a pair of weakly coupled time-dependent mechanical oscillators, which can be interpreted in the light of modal interaction between crossing states. It is shown that for sufficiently slow time-modulation, the elastic energy can be transferred from one oscillator to the other. A non-Hermitian shortcut is later induced to break the modal coupling and, therefore, to speed-up the modal transformation. The strategy is then generalized to elastic lattices supporting topological edge states. We show that the requirements for a complete edge-to-edge energy transfer are lifted from the adiabatic limit toward higher modulation velocities, opening up new opportunities in the context of wave manipulation and control.
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Phys</addtitle><description>The temporal modulation of a relevant parameter can be employed to induce modal transformations in Hermitian elastic lattices. When this is combined with a proper excitation mechanism, it allows to drive the energy transfer across the lattice with tunable propagation rates. Such a modal transformation, however, is limited by the adiabaticity of the process, which dictates an upper bound for the modulation speed. In this manuscript, we employ a non-Hermitian shortcut by way of a tailored gain and loss to violate the adiabatic limit and, therefore, to achieve superfast modal transformations. A quantitative condition for adiabaticity is firstly derived and numerically verified for a pair of weakly coupled time-dependent mechanical oscillators, which can be interpreted in the light of modal interaction between crossing states. It is shown that for sufficiently slow time-modulation, the elastic energy can be transferred from one oscillator to the other. 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subjects	Adiabatic flow adiabatic pumping Behavior Electromagnetism Energy Energy transfer Mechanical oscillators Mechanics Modulation non-Hermitian Oscillators phononic crystal Physics Time dependence topological lattice Transformations Upper bounds
title	Adiabatic edge-to-edge transformations in time-modulated elastic lattices and non-Hermitian shortcuts
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