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Paper detail

Engineering Casimir interactions with epsilon-near-zero materials

In this paper we theoretically demonstrate the tunability of the Casimir force both in sign and magnitude between parallel plates coated with dispersive materials. We show that this force, existing between uncharged plates, can be tuned by carefully choosing the value of the plasma frequency (i.e., the epsilon-near-zero frequency) of the coating in the neighborhood of the resonance frequency of the cavity. The coating layer enables a continuous variation of the force between four limiting values when a coating is placed on each plate. We explore the consequences of such variation when pairs of electric and magnetic conductors (i.e. low and high impedance surfaces) are used as substrates on either side, showing that this continuous variation results in changes in the sign of the force, leading to both stable and unstable conditions, which could find interesting potential applications in nanomechanics including nanoparticle tweezing.

preprint2021arXivOpen access
Miguel CamachoTao GongBenjamin SprengIñigo LiberalNader EnghetaJeremy N. Munday
physics.opticsquant-ph
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Miguel CamachoTao GongBenjamin SprengIñigo LiberalNader EnghetaJeremy N. Munday

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