产品镜片均由全玻璃钢材质做成，保证图像一致性。镜片是完成非流体力学运用、乙醇及过氧化物清理实际操作的商品。全夹层玻璃镜片在防止塑胶电子光学材料伴随的典型性做雾化、若隐若现及裂开状况的另外，附加有特薄、无形中的氢氧化物双层（5层或之上）抗反射面（AR）镀层，并遮盖于镜片双侧表层，较大 水准地降低炫光量，使图像传送品质达到较好！

它是当今目前市面上具有该特点的镜片商品。

抗反射面表层镀层是决策镜片品质重要的要素之一，它是一种特薄、无形中的氢氧化物双层（5层或之上）涂层，遮盖于镜片双侧表层。该双层涂层降低了镜片表层产生的炫光量，促进大量光源抵达眼底黄斑，提升了图像传送品质。
为何必须抗反射面(AR)镀层？
无镀层镜片将导致4-16%的光源被反射面或丢失。提升AR镀层后，镜片的总体传送品质最大可提高15%。
为何AR镀层附带色彩？
伴随着多色调（蓝紫色、深蓝色、翠绿色、淡黄色、橘色和鲜红色）可见光谱的挪动，光波长（400-700nm）拉长。依据设计方案，AR镀层对色谱分析的功效水准各有不同。因而，抗反射面效用针对各色调的危害有所区别，进而对镜片产生了轻度色移。该色移可根据操纵，利润最大化地提高图像传送品质，并产生一种舒服的外型色彩。融合设计方案，镀层在可见光波长范畴内实际效果显著，另外在全镭射手术光谱仪中做到较优控制。完成真正的颜色复原，出示极致的图像饱和度，在镭射应用中也可以保证详细传送实际效果。
What is an Anti-Reflective (AR) Coating?
An Anti-Reflective (AR) coating is a thin, invisible multi-layered hydroxide coating (typically 5 or more layers) applied to both sides of the lens surface. It is designed to reduce glare to the greatest extent possible and enhance image transmission quality.
The lenses are made entirely from glass materials, ensuring image consistency. These lenses are specifically designed for non-fluid dynamics applications and cleaning processes using ethanol and peroxides. Unlike plastic optical materials, which are prone to common issues such as fogging, blurriness, and cracking, full glass lenses provide superior durability.
With the added AR coating, the lenses achieve optimal image transmission quality while minimizing glare, making them among the most advanced products available on the market today with these features.

An Anti-Reflective (AR) coating is one of the key factors determining lens quality. It is a very thin, invisible multi-layer hydroxide coating (typically 5 or more layers) applied to both sides of the lens surface. This multi-layer coating reduces glare generated on the lens surface, allowing more light to reach the macula and enhancing image transmission quality.

Why is an AR Coating Necessary?

Without a coating, lenses can lose 4–16% of light through reflection or scattering. By adding an AR coating, the overall light transmission quality of lenses can improve by up to 15%.

Why Do AR Coatings Have Colors?

AR coatings can appear with slight coloration due to their interaction with the visible spectrum (wavelengths 400–700 nm). The effect of the coating varies depending on its design and influences specific colors in the visible spectrum, resulting in a subtle color shift.

These color shifts can be controlled to maximize image transmission quality and create a comfortable appearance. AR coatings are particularly effective in the visible wavelength range and achieve superior control across the laser spectrum, ensuring true color reproduction, optimal image saturation, and complete transmission effects during laser applications.