![]() In real life, bright sunshine or LED strip lights will cause the same problem, they can’t see your eyes, and you can experience glare around the sides of your lenses, too, all of which is extremely off-putting. ![]() Have you ever had a photo taken only to find your face covered by a weird flash of light? Or taking a video call only to see your reflection staring back at you (or calling you out for looking at something on your phone at the same time!) If you have glasses without an anti-glare coating, any bright lights or camera flash will reflect off of your lenses. If you’re doing all three, then anti-glare glasses are definitely for you. However, by eliminating the light reflection off of your lenses, more light will reach your eye, increasing visual depth and clarity vital for driving, working, and sports such as skiing and watersports. You might not have a headache – yet – but glare will absolutely impair your vision, especially when squinting again. ![]() With the risk of damage such as inflammation and burning to the cornea on the front of the eye a very real and high risk in the sun, UV protection needs little promotion for healthy eyes and long-term vision. Anti-glare glasses in any situation, be it work, rest or play, will help put less stress on your eyes and so, less squinting.Ĭritical for eye health, the anti-reflective coating provides protection from UV rays emitted by the sun and some artificial light sources. We try to omit glare ourselves by squinting, which only exasperates the problem and causes further ailments. Not ideal when you are driving long distances, trying to get a report finished, or finally settling down to relax. No one wants eyestrain – it’s intensely uncomfortable and hard to shake off once it sets in. ![]() And while AR coating does not guarantee reflection elimination, wearing anti-glare lenses will reduce fatigue in your eyes and headaches as a result by lessening the amount of reflection and light coming through your lenses.īenefits of anti-glare glasses Significantly reduces eye strain Computer screens, driving at night, and sun exposure are all very different scenarios that can be marred by the effects of glare. And while some people suffer from the effects of glare more than others, the exposure to digital screens and then natural light to take a break from them will only ever increase. On the odd occasion, it may not seem like a priority to have anti-glare, but once these health issues become chronic, you can have very real, very uncomfortable health issues to deal with.Īnti-glare lenses are suitable for everyone, especially in our predominantly digital workspaces, working from home, TV streaming and internet heavy lives we lead. The result is inhibiting vision and attributing to health issues, including eye strain, blurred vision or ‘halos’ around bright lights such as street lamps, headaches, migraines and a significant decrease in concentration and focus when squinting to avoid glare. So, why do we care about glare? Well, it can present numerous problems for wearers, especially when driving, playing sports and working with computers and other tech with direct light sources. From snow and water conditions to tablets, computer screens and even your phone, glare is a bigger issue for glasses wearers than they often realise. Instead, by letting this light through, the lenses drastically reduce or eliminate glare from excessive brightness caused by natural and artificial light sources, which cause reflection of your lenses. This can seem counter-productive, but it is not noticeable to the wearer. Manufactured with an anti-reflective or AR coating, the lenses allow 99.5 percent of available light to reach your eyes. But, there’s a science to it and several benefits in addition to anti-glare. Such coatings produced at an opticians usually have a very faint residual colour which is usually green or blue and that is probably the reason for the colouration of your lenses.So, as described, anti-glare glasses have lenses that eliminate glare. There is much less light reflected from the lenses and the colour of the lenses by reflected light is changed again. The thickness of the coating is $t=\dfrac)$ and so the reflectance does not go down to zero. The process of putting the coating on is called blooming. The lens have an anti-reflecting coating on them.
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