Abstract
We have demonstrated an all-optical technique for reversible in-plane and out-of-plane switching of nematic liquid crystal molecules in few micron thick films. Our method leverages the highly localized electric fields ("hot spots") and plasmonic heating that are generated in the near-field region of densely packed gold nanoparticle layers optically excited on-resonance with the localized surface plasmon absorption. Using polarized microscopy and transmission measurements, we observe this switching from homeotropic to planar over a temperature range starting at room temperature to just below the isotropic transition, and at on-resonance excitation intensity less than 0.03 W/cm(2). In addition, we controllably vary the in-plane directionality of the liquid crystal molecules in the planar state by altering the linear polarization of the incident excitation. Using discrete dipole simulations and control measurements, we establish spectral selectivity in this new and interesting perspective for photonic application using low light power.
Highlights
The synergy between metallic gold nanoparticles (AuNPs) and liquid crystalline (LC) molecules has been widely investigated in the recent years from a variety of perspectives, both topological and functional
We have demonstrated an all-optical technique for reversible inplane and out-of-plane switching of nematic liquid crystal molecules in few micron thick films
Our method leverages the highly localized electric fields (“hot spots”) and plasmonic heating that are generated in the near-field region of densely packed gold nanoparticle layers optically excited onresonance with the localized surface plasmon absorption
Summary
The synergy between metallic gold nanoparticles (AuNPs) and liquid crystalline (LC) molecules has been widely investigated in the recent years from a variety of perspectives, both topological and functional.
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