Sentence examples for optical interactions from inspiring English sources

We present a review of plasmonic nanostructures in which the constituent materials are coupled together by optical interactions.

We review recent research on nonlinear optical interactions in optical-fiber nanowires (OFNs) with sub-micron transverse dimensions.

The review first provides a comprehensive coverage of theoretical framework where the optical interactions are described by the multiple scattering among the nanostructures.

Graphene oxide is a strong candidate for studying high frequency and optical interactions due to excellent scattering parametric characteristics being a few nano-meters thick and having outstanding optical characteristics with a variable band-gap.

For all but the most trivial optical interactions Mueller matrices can be hard to interpret.

In brief, a focused (short-pulse) probe beam is axially scanned through a sample eliciting two types of nonlinear optical interactions that predominantly occur at the focal volume.

The strength and nature of the optical interaction between plasmonic nanostructures varies with the distance.

In this paper, the optical properties (light reflection, refraction and transmission) in homogeneous and inhomogeneous nanostructures are analyzed and the optical interaction with the nanostructures is investigated.

The near-field optical interaction between a sharp probe and a sample of interest can be exploited to image, spectroscopically probe, or modify surfaces at a resolution (down to ∼12 nm) inaccessible by traditional far-field techniques.

Such significantly enhanced and localized near-field property dominates the optical interaction with absorbed biomolecules or with fluorophores passing in close proximity, which is helpful for the improvement of spectroscopic signal and fluorescent efficiency.

Calculations show that a reasonably good degree of entanglement can be obtained, and that the optical interaction length required for optimal conversion is very short, in the few μm range.