1. Unconventional structure-assisted optical manipulation of high-index nanowires in liquid crystals.
- Author
-
Engström D, Varney MC, Persson M, Trivedi RP, Bertness KA, Goksör M, and Smalyukh II
- Subjects
- Equipment Design, Equipment Failure Analysis, Liquid Crystals chemistry, Nanotechnology instrumentation, Nanotubes chemistry, Nanotubes ultrastructure, Refractometry instrumentation
- Abstract
Stable optical trapping and manipulation of high-index particles in low-index host media is often impossible due to the dominance of scattering forces over gradient forces. Here we explore optical manipulation in liquid crystalline structured hosts and show that robust optical manipulation of high-index particles, such as GaN nanowires, is enabled by laser-induced distortions in long-range molecular alignment, via coupling of translational and rotational motions due to helicoidal molecular arrangement, or due to elastic repulsive interactions with confining substrates. Anisotropy of the viscoelastic liquid crystal medium and particle shape give rise to a number of robust unconventional trapping capabilities, which we use to characterize defect structures and study rheological properties of various thermotropic liquid crystals.
- Published
- 2012
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