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Paper detail

Epsilon-Near-Zero (ENZ)-based Optomechanics

Optomechanics deals with the control and applications of mechanical effects of light that stems from the redistribution of photon momenta in light scattering. Here, we investigate, analytically and numerically, optical forces on polarizable particles in proximity of epsilon-near-zero (ENZ) metamaterials. We look at the general features of the repulsive-attractive optomechanics from the nano to the microscale exploiting different theoretical methods (dipole approximation, finite elements calculations, transition (T-)matrix). We discuss the role of realistic layered materials, as our ENZ substrate, on optical forces and analyze the influence of composition and shape by studying a range of complex particles (dielectric, core-shell, plasmonic ellipsoids). Physical insights into the results are discussed and future research directions are forecasted. Our results provide new possibilities in exploiting engineered materials and surfaces for the manipulation and tailoring of light-induced forces in optomechanics.

preprint2022arXivOpen access
Y. KiasatM. G. DonatoM. HinczewskiM. ElKabbashT. LetsouR. SaijaO. M. MaragoG. StrangiN. Engheta
cond-mat.mtrl-sciphysics.optics
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Y. KiasatM. G. DonatoM. HinczewskiM. ElKabbashT. LetsouR. SaijaO. M. MaragoG. StrangiN. Engheta

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