Fractional Fresnel coefficients for optical absorption in femtosecond laser-induced rough metal surfaces
Abstract
The surface morphology of metal influences its optical absorptivity. Recent experiments have demonstrated that the femtosecond laser induced surface structures on metals could be dynamically controlled by the fluence of laser and the number of pulses. In this paper, we formulate an analytical model to calculate the optical absorption of a rough metallic surface by modeling the roughness as a fractal slab. For a given experimental image of the surface roughness, we characterize the roughness with a fractal parameter by using the box-counting method. With this parameter as an input, we calculate the absorption of an 800 nm laser pulse impinging on gold, copper, and platinum, and the calculated results show excellent agreements. In terms of physics, our model can be viewed as a fractional version of the Fresnel coefficients, and it will be useful for designing suitable surface structures to tune the light absorption on metals from purely reflective to highly absorptive based on different applications.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Oct 18, 2018
- Source ID
- 10.1063/1.5039811
Entities
People
- Kelvin J. A. Ooi
- Lay Kee Ang
- Muhammad Zubair
- Yee Sin Ang
Organizations
- Air Force Office of Scientific Research