Products
RIO 1.56
An antireflex layer or anti-reflective coating works by eliminating reflections from the front and back surface of eyeglass lenses. It is a microscopically thin multi-layer coating that is applied to the surface of the lenses. The layers are designed to produce destructive interference in the beams reflected from the interfaces and constructive interference in the corresponding transmitted beams. This reduces the amount of light that is lost due to reflection and improves the efficiency of the lens. By eliminating reflections, the coating makes your lenses nearly invisible so people can focus on your eyes, not distracting reflections from your eyeglasses.
DELGADO 1.67
A 1.67 high-index lens is about 30% thinner than a CR-39 lens. It is suitable for prescriptions under +5.00/-8.00 and astigmatism correction between -3.00 and -4.00.
There are several benefits to having thinner lenses. Since less material is required, thin lenses are lighter and more comfortable to wear. They can also be glazed into a wider variety of glasses due to their narrow shape and slimmer edges. Thinner lenses are also more aesthetically pleasing compared to bulky lenses. They are streamlined within frames and avoid the “bug eye look” or fish-bowl effect associated with high prescriptions.
AZOLA GRIS 1.56
Photochromic lenses are eyeglass lenses that are clear (or nearly clear) indoors and darken automatically when exposed to sunlight. Other terms sometimes used for photochromic lenses include “light-adaptive lenses,” “light intelligent” and “variable tint lenses”.
The main purposes of photochromic lenses are to protect your eyes from UV light and to eliminate the need for a separate pair of prescription sunglasses. The lenses provide complete protection from UVA and UVB rays at all times.
Photochromic lenses work by using two main molecules: silver halide and chloride. These molecules chemically change the structure of the lens in response to UV radiation, darkening as they sense UV rays found in sunlight.
AZOLA 1.56
Blue control technology refers to lenses that block or filter blue light emitted by digital devices such as computers, smartphones, and televisions. Blue light blocking lenses can be made with special coatings or by incorporating blue light blocking properties into the lens material itself. Blue light blocking coatings are applied as an additional layer on clear lenses. They offer all the benefits of a traditional anti-reflective coating and also include a blue filter which attenuates blue light in the 380 to approx. 450 nm band.
Blue light blocking glasses have filters in their lenses that block or absorb blue light, and in some cases UV light, from getting through. Blue light blocking lenses have several benefits. They can help reduce exposure to blue light waves that can keep you awake, allowing you to experience better sleep at night1. They can also lower your risk of eye diseases, reduce eye strain, lessen the frequency of headaches, and allow you to use your devices longer without worries.
AZOLA 1.60
A mid-index lens with a refractive index of 1.6 is approximately 20% thinner than a standard lens. Lenses with a refractive index of 1.6 are ideal for prescriptions where the minus value of your Spher prescription is between -2.50 and -4.00. The difference between mid-index and high-index lenses lies in their refractive index. The refractive index of a lens material refers to how efficiently it bends light. A higher index means that light travels more slowly through the lens material and more bending of light rays occurs. Because of this, lenses with a higher index do not require as much lens material as lenses with a lower index. Prescription glasses with a higher lens index will have thinner lenses.
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