In Which Way Does Blue Light Change as It Travels From Diamond Into Crown Glass
If you're anything like us, you're probably still spending tons of time in front of screens due to ongoing social distancing restrictions, and your new habits may stick, even after the restrictions are lifted. Phones, TV screens, computers — you name it — these gadgets help us get work done and provide great ways to spend our time while we're social distancing during the COVID-19 pandemic, but they also expose us to a lot more blue light.
For beach-goers, experts always recommend a healthy coating of sunscreen to protect the skin from those pesky ultraviolet (UV) rays, but sunlight contains more than just damaging UV light. In fact, it's made up of red, green, yellow, blue and orange light rays, which combine to create "white light" (a.k.a. sunlight). If you haven't sat through a high school science class in a while, no worries. We'll break down the important stuff about blue light — without getting too scientific.
What Exactly Is Blue Light?
As the name suggests, visible light can be seen by the human eye, and each ray reflects a particular color. The color of a given ray depends on the ray's wavelength (see the graphic below) — or the distance between successive crests of a wave. (Side note: This means that objects get their colors through the wavelengths of the light that are reflected from them. Trust us — don't think too hard about it. Things get trippy.)
Another important relationship to note is that of wavelengths and energy: The longer the distance between waves, the less energy a ray has to offer. Think of it this way — if the wave crests are farther apart, they're a bit lazy, but if the crests come in rapid succession, there's a frenzy of energy there. All of this means rays on the red end of the visible light spectrum have longer wavelengths and less energy, whereas rays on the blue end have shorter wavelengths and more energy.
UV rays, which aren't on the visible light spectrum at all, surpass blue light in terms of how much energy they contain. That incredible amount of energy is how those rays are able to create a physical change, like tanning (or burning) your skin. In moderation ultraviolet radiation can be good for us (think vitamin D), but, on the other hand, it can also produce some devastating effects (think sunburn and snow blindness).
So, what about blue light — the visible rays that are a few notches below harmful UV rays? Well, approximately one-third of all visible light is considered high-energy visible (HEV) blue light. Blue light is literally why the sky appears blue. These rays scatter more easily than other visible rays of light when they strike the atmosphere's air and water molecules, and all that scattering makes the sky that vibrant blue color.
There's no escaping it, especially because daylight is our main source of blue light, but it's not all bad. Experiencing blue light during the daytime helps regulate your circadian rhythm, makes you more alert, elevates your cognitive function, promotes good recall and is even used in light therapy to treat seasonal affective disorder (SAD). However, human-made objects — including LED lights and display screens on flat-screen TVs, computers and smartphones — emit blue light too. Although these devices only emit a fraction of the blue light the sun emits, researchers and doctors have still voiced concerns about patients' excessive screen time — and corresponding overexposure to blue light — in recent years.
Surprisingly, the human eye is pretty great at protecting the retina from UV rays, but blue light is a different story. Virtually all of it penetrates the light-sensitive retina, causing damage that approximates macular degeneration — a condition that can lead to vision loss.
In addition to potentially harming your eyes over time, blue light can also lead to eye strain. If you have ever ended up with a wicked headache after staring intensely at an Excel spreadsheet for hours, you're probably familiar with that particular discomfort. When we noted how blue light contributes to the sky looking blue, we mentioned that this is true because of how blue light scatters. Well, according to All About Vision, this same scattering of the blue light that emanates from screens makes for "unfocused visual 'noise' [that] reduces contrast and can contribute to digital eye strain."
If you don't suffer from eye strain due to increased exposure to blue light, these inescapable rays may still have adverse effects on your health. Any sort of light — regardless of where it falls on the spectrum — can suppress the human body's ability to release melatonin, the hormone that regulates sleep cycles. However, it's believed that blue light quashes melatonin secretion even more than other hues do. Researchers at Harvard University compared the effects of blue and green light exposure and found that "blue light suppresses melatonin [secretion] for about twice as long as the green light and shifted circadian rhythms by twice as much."
How Can You Protect Against Blue Light?
BluTech, a company that manufactures special blue light-filtering lenses, reports that "43% of adults have a job that requires prolonged use of a tablet or computer" — and that's just while those adults are on the clock. Factor in all the time we spend online, texting and marathoning Netflix, and adults spend roughly 12 hours a day looking at screens and taking in blue light. So, how can you personally mitigate the harmful effects of prolonged exposure to blue light?
Well, blue light-filtering lenses are becoming all the rage. Although not as ubiquitous as Away suitcases or Blue Apron commercials, you may have heard commercials for blue light-filtering specs from Felix Gray or Warby Parker on your favorite podcast or radio talk show. Felix Gray glasses, for example, pride themselves on having a blue light-filtering material embedded inside, which the company says will curb eye strain, headaches and sleep disruption.
If you're not into wearing a pair of glasses, experts recommend taking screen breaks, both at work and at home; keeping screens clean to reduce glare and eye strain; changing your abrasive white display background to something less bright; blinking more often; and avoiding screens for at least 30 minutes to an hour before bed because screens stimulate your brain. At bedtime, it's time to trade that fancy blue light-emitting tablet for a Kindle Paperwhite, or, you know, a good old-fashioned book. (Remember those?)
Source: https://www.ask.com/culture/everything-about-blue-light-glasses?utm_content=params%3Ao%3D740004%26ad%3DdirN%26qo%3DserpIndex
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