The material that currently holds the record for the lowest refractive index in a solid is . Sometimes called "frozen smoke," this remarkable substance is created by extracting the liquid component from a silica gel under supercritical drying conditions, leaving behind a porous, dendritic network of amorphous silicon dioxide that is up to 99.9% air by volume. The refractive index of an aerogel follows the simple rule of mixtures, approximated by ( n \approx 1 + 0.21 \rho ), where ( \rho ) is the density in g/cm³ (for comparison, solid silica has ( n \approx 1.46 ) and ( \rho = 2.2 ) g/cm³). By engineering the density down to as low as 1.5 mg/cm³—just 0.07% the density of solid silica—researchers have produced aerogels with refractive indices as low as ( n \approx 1.0002 ) . This value is not only lower than any other solid but is even lower than standard air, though still marginally higher than helium gas. Thus, in practical terms, ultra-low-density silica aerogel is the reigning champion of low-index solids.
In conclusion, air is the material with the lowest refractive index, and its properties make it an essential component in various optical applications. Understanding the refractive index of materials is crucial in designing and optimizing optical systems, and researchers continue to explore new materials with unique optical properties. lowest refractive index material