Catadioptric Lens Design The Breakthrough To Hyper-Na Optics at Amber Letters blog

Catadioptric Lens Design The Breakthrough To Hyper-Na Optics. We present designs of 1.65 na visible imaging lens with 1.75 mm field size and 20× magnification. The results revealed that an optical design with aperture stop set on the lc lens as an active compensation device successfully eliminated. The main criteria used to evaluate the potential of the different solutions include mechanical complexity, reticle compatibility, optical.

We present designs of 1.65 na visible imaging lens with 1.75 mm field size and 20× magnification. The results revealed that an optical design with aperture stop set on the lc lens as an active compensation device successfully eliminated. The main criteria used to evaluate the potential of the different solutions include mechanical complexity, reticle compatibility, optical.

Aberration theory still the key to designing superior optical systems

Catadioptric Lens Design The Breakthrough To Hyper-Na Optics The results revealed that an optical design with aperture stop set on the lc lens as an active compensation device successfully eliminated. We present designs of 1.65 na visible imaging lens with 1.75 mm field size and 20× magnification. The main criteria used to evaluate the potential of the different solutions include mechanical complexity, reticle compatibility, optical. The results revealed that an optical design with aperture stop set on the lc lens as an active compensation device successfully eliminated.