Electronic Mirrors 1.46 May 2026

) is frequently used as a low-index material in high-damage-threshold mirrors and cladding for waveguides. Its refractive index is approximately .

: These systems significantly reduce blind spots. They can decrease the direct visual obstacle angle on the driver's side by roughly 40% and on the passenger side by nearly 50% . ELECTRONIC MIRRORS 1.46

: Research into micromirrors for electronic circuits often uses materials with a 1.46 refractive index for cladding to ensure high reflection efficiency (up to 83% at certain wavelengths). ) is frequently used as a low-index material

: Implementing electronic mirrors can reduce a vehicle's drag coefficient by approximately 0.016 to 0.021 . For commercial vehicles, this translates to a fuel consumption reduction of over 2%, while electric vehicles can see a driving range increase of 5% to 7% during high-speed travel. They can decrease the direct visual obstacle angle