Authors: Tyler O'Loughlin, Tyler Daynes, Erik Prazak
Mentors: Dustin Shipp
Insitution: Utah Valley University
In the realm of photon interactions with surfaces, the reflection and refraction of light depend significantly on the micro and macrostructures of the surfaces. Despite the use of various methods to attenuate light, their effectiveness remains a subject of interest. In this study, we delve into the properties that render super-black coatings, such as Vantablack, exceptionally dark compared to coatings with distinct surface characteristics but significantly altered amplitudes of reflected intensity. Our research focuses on understanding the optical properties of Vantablack; in particular, we investigate the role of the carbon nanotube microstructure in achieving its unique light-absorbing properties. Through a comprehensive analysis of our samples, we have uncovered that the carbon nanotube microstructure of Vantablack contributes to its remarkably low reflective intensity and exceptional absorption across all wavelengths of light. Notably, Vantablack displays such a high optical density that even at Brewster's angle, a reflection is virtually undetectable. This research sheds light on the intriguing properties of Vantablack and has implications for a wide range of applications where light absorption and reflection play a critical role.