The Dark Side Of Visible And Invisible Light
By Essilor News
Our eyes are one of the smallest organs in our bodies, yet there are more than 100 million tiny cells—called rods and cones—inside the retina alone that are responsible for responding to light. While rods help with vision in low light, cones help us see the world in color. In fact, our eyes can visualize all colors of the rainbow through reflected light, but the colors we see are part of a very narrow band of wavelengths on the light spectrum. The question is – What can't we see?
What Is Visible Light?
Our eyes are sensitive to a narrow band of electromagnetic waves known as the visible light spectrum. To understand how visible light is broken into various wavelengths, take a cue from Isaac Newton and shine a light through a prism. A prism separates visible white light into separate wavelengths, and each color that appears—red, orange, yellow, green, blue, and violet—is a characteristic of the distinct wavelengths.
Certain colors are seen as objects around us and absorb some light and reflect the rest, depending on the properties of the object. For example, a strawberry reflects the wavelength of visible light that appears as red.
What about white and black? White is the result of a mixture of two or more colors of light. This is why visible light—or the mix of the rainbow of colors—is also referred to as white light. Black is the absence of the visible light spectrum wavelengths. Everything in a dark room appears black because there is no visible light to strike your eye as you gaze at the surrounding objects.
Blue light, or blue-violet light, has shorter wavelengths and more energy than any other visible light. While blue light helps regulate circadian rhythm and boost memory and cognitive function, excessive exposure can lead to digital eye strain, retina damage, and age-related macular degeneration. Special lenses like Eyezen™ can help with digital eye strain. For proactive blue light protection, Crizal® Prevencia™ anti-glare lenses can be a great solution.
A comprehensive eye exam with an eyecare professional can help you find the right lenses.
What Is Non-Visible Light?
The human eye can only see visible light, but light comes in many other "colors"—radio, infrared, ultraviolet, X-ray, and gamma-ray—that are invisible to the naked eye.
On one end of the spectrum there is infrared light, which, while too red for humans to see, is all around us and even emitted from our bodies. Warm-blooded animals, including humans, radiate infrared light. That's why infrared cameras are helpful for thermal imaging and night vision when searching for people or animals.
On the other end of the spectrum there is X-ray light, which is too blue for humans to see. X-rays are another common light source that many of us have encountered at a doctor's office. X-rays can penetrate skin and muscles, allowing doctors to look at our bones. What you might not know is that the sun also emits X-rays. Lucky for us, the Earth's atmosphere blocks X-ray light.
Non-visible light can also be found in your home in a device you most likely use every day: remote controls! Your remote control uses infrared light to transmit signals to the television and other electronics. While the signal is invisible to you, your television can process the light and respond.
Unfortunately, not all light is safe, and particular bands of light are hazardous to our health. Ultraviolet light can sunburn unprotected skin. Infrared light can emit thermal energy that can harm your body. A microwave, the wavelength of light falls between radio and infrared waves, can heat the water molecules in deep tissues, affecting the body’s moisture levels. Plus, gamma rays are the most dangerous because they can warp the body’s cells.
However, some lights are actually more helpful to us than you might think. Aside from helping us see, visible light is also beneficial to our bodies and overall health. Research shows that certain wavelengths of red light can penetrate the skin to reduce wrinkles and help repair skin damage, while parts of the blue light wavelength regulate the biological clock, or sleep/wake cycle, and play a role in basic functions of the human brain such as alertness, memory, emotion, and cognitive performance.