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Paper detail

Terahertz binding of nanoparticles based on graphene surface plasmons excitations

This work studies the optical binding of a dimer composed by dielectric particles close to a graphene sheet. Using a rigorous electromagnetic method, we calculated the optical force acting on each nanoparticle. In addition, we deduced analytical expressions enabling to evaluate the contribution of graphene surface plasmons (GSPs) to optical binding. Our results show that surface plasmon on graphene excitations generate multiple equilibrium positions for which the distance between particles are tens of times smaller than the photon wavelength. Moreover, these positions can be dynamically controlled by adjusting the chemical potential on graphene. Normal and oblique incidence have been considered.

preprint2021arXivOpen access
Hernán FerrariCarlos J. Zapata RodríguezMauro Cuevas
physics.optics
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Hernán FerrariCarlos J. Zapata RodríguezMauro Cuevas

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