Optical constants of Al (Aluminium)
Larruquert et al. 1996: n,k 0.077–0.114 µm
Wavelength:
µm
(0.0770–0.1135)
Complex refractive index (n+ik)
n
k
LogX
LogY
eV
Derived optical constants
Conditions & Spec sheet
n_is_absolute: true wavelength_is_vacuum: true
Comments
Optical constants are obtained from reflectance measurements versus angle of incidence. Film deposited at room temperature.
References
1) J. I. Larruquert, J. A. Méndez, J. A. Aznárez. Optical constants of aluminum films in the extreme ultraviolet interval of 82-77 nm, Appl. Opt. 35, 5692-5697 (1996)
2) J. I. Larruquert, J. A. Méndez, J. A. Aznárez. Far-ultraviolet reflectance measurements and optical constants of unoxidized aluminum films, Appl. Opt. 34, 4892-4899 (1995)
Data
INFO
Aluminium, Al
Aluminium (Al) is a lightweight and highly reflective metal that sees extensive use in a variety of optical applications. Known for its excellent thermal and electrical conductivity, aluminium is often utilized as a mirror coating in optical systems such as telescopes and microscopes, particularly for operations within the ultraviolet and visible spectral ranges. While it offers high reflectivity, it is also cost-effective, making it a popular choice across both consumer and industrial sectors. However, aluminium surfaces are generally more prone to oxidation than other reflective metals like gold or silver. To counteract this, aluminium coatings are frequently protected by a thin layer of dielectric material. In photonics, aluminium nanostructures are also being investigated for their plasmonic properties. It's worth noting that the optical properties of aluminium, such as its refractive index, can differ based on its physical state—whether in bulk, thin film, or nanoparticle form. Overall, aluminium remains a versatile and widely used material in the field of optics, valued for its blend of performance and affordability.Other name
- Aluminum