Your search keyword '"Ashley P. Saunders"' showing total 3 results

1. Colouration by total internal reflection and interference at microscale concave interfaces

Author

Mathias Kolle, Lauren D. Zarzar, Ashley P. Saunders, Seong Ik Cheon, Bryan Kaehr, Amy Goodling, Sara Nagelberg, and Caleb H. Meredith

Subjects

Diffraction, Total internal reflection, Multidisciplinary, Materials science, business.industry, Scattering, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Iridescence, Wavelength, Optics, Interference (communication), Light beam, 0210 nano-technology, business, Microscale chemistry

Abstract

Many physical phenomena create colour: spectrally selective light absorption by pigments and dyes1,2, material-specific optical dispersion3 and light interference4–11 in micrometre-scale and nanometre-scale periodic structures12–17. In addition, scattering, diffraction and interference mechanisms are inherent to spherical droplets18, which contribute to atmospheric phenomena such as glories, coronas and rainbows19. Here we describe a previously unrecognized mechanism for creating iridescent structural colour with large angular spectral separation. Light travelling along different trajectories of total internal reflection at a concave optical interface can interfere to generate brilliant patterns of colour. The effect is generated at interfaces with dimensions that are orders of magnitude larger than the wavelength of visible light and is readily observed in systems as simple as water drops condensed on a transparent substrate. We also exploit this phenomenon in complex systems, including multiphase droplets, three-dimensional patterned polymer surfaces and solid microparticles, to create patterns of iridescent colour that are consistent with theoretical predictions. Such controllable structural colouration is straightforward to generate at microscale interfaces, so we expect that the design principles and predictive theory outlined here will be of interest both for fundamental exploration in optics and for application in functional colloidal inks and paints, displays and sensors. A mechanism for creating patterns of iridescent structural colour by total internal reflection of light beams along a concave optical interface leading to interference is described, for complex microscopic systems and for systems as simple as condensed water drops.

Published

2019

2. Structural coloration from total internal reflection at microscale concave surfaces and use for sensing in complex droplets

Author

Ashley P. Saunders and Lauren D. Zarzar

Subjects

Total internal reflection, Materials science, Optics, business.industry, business, Microscale chemistry, Structural coloration

Published

2020

3. Colouration by total internal reflection and interference at microscale concave interfaces

Author

Amy E, Goodling, Sara, Nagelberg, Bryan, Kaehr, Caleb H, Meredith, Seong Ik, Cheon, Ashley P, Saunders, Mathias, Kolle, and Lauren D, Zarzar

Abstract

Many physical phenomena create colour: spectrally selective light absorption by pigments and dyes

Published

2018