and dust is provided by high-precision, diffractive nanostructures on the insides of the lenses.The half-eye design facilitates orientation above the eyewear.Weight only 18 g.The spring-hinged frame has
and dust is provided by high-precision, diffractive nanostructures on the insides of the lenses.The half-eye design facilitates orientation above the eyewear.Weight only 18 g.The spring-hinged frame has
and dust is provided by high-precision, diffractive nanostructures on the insides of the lenses.The half-eye design facilitates orientation above the eyewear.Weight only 18 g.The spring-hinged frame has
and dust is provided by high-precision, diffractive nanostructures on the insides of the lenses.The half-eye design facilitates orientation above the eyewear.Weight only 18 g.The spring-hinged frame has
and dust is provided by high-precision, diffractive nanostructures on the insides of the lenses.The half-eye design facilitates orientation above the eyewear.Weight only 18 g.The spring-hinged frame has
and dust is provided by high-precision, diffractive nanostructures on the insides of the lenses.The half-eye design facilitates orientation above the eyewear.Weight only 18 g.The spring-hinged frame has
cylinder). (In the case of greater variances in distance values, we recommend that the prismatic half-eye glasses are individually fitted using the Eschenbach Optik System Individual). Technical
and dust is provided by high-precision, diffractive nanostructures on the insides of the lenses.The half-eye design facilitates orientation above the eyewear.Weight only 18 g.The spring-hinged frame has
and dust is provided by high-precision, diffractive nanostructures on the insides of the lenses.The half-eye design facilitates orientation above the eyewear.Weight only 18 g.The spring-hinged frame has
and dust is provided by high-precision, diffractive nanostructures on the insides of the lenses.The half-eye design facilitates orientation above the eyewear.Weight only 18 g.The spring-hinged frame has