Jacob Trevino

TL;DR: This paper combines experimental dark-field imaging, scattering, and fluorescence spectroscopy with rigorous electrodynamics calculations in order to investigate light scattering from planar arrays of Au nanoparticles arranged in aperiodic spirals with diffuse, circularly symmetric Fourier space, and demonstrates polarization-insensitive planar light diffraction in the visible spectral range.

TL;DR: These findings represent an initial step toward the development of coupled metal-semiconductor resonant nanostructures for the realization of next generation solar cells, detectors, and nonlinear optical devices with reduced footprints and energy consumption.

TL;DR: This is the first successful demonstration of using oscillating pressure waves to generate anisotropic organo- and hydrogels consisting of oriented tripeptides structures.

TL;DR: The possibility to engineer multipolar SHG in planar arrays of metallic nanoparticles paves the way to the development of novel optical elements for nanophotonics, such as nonlinear optical sensors, compact frequency converters, optical mixers, and broadband harmonic generators on a chip.

TL;DR: In this article, aperiodic nanostructures for enhanced omnidirectional light extraction and coupling of 1.55μm radiation to distinctive optical resonances carrying of orbital angular momentum (OAM) using light emitting Si-based materials were designed.