!You can only compare four frames.
Please remove a frame before adding another.
Product added to cart. View Cart
Product added to Wish List. View Wish List
By clicking here you agree with our terms
Our Virtual Mirror lets you try on different styles without going to the store. Save of photo of your favorites and even share with friends.
Store LocatorFind a store near you
TRY ON THE STYLES THAT
SUIT YOUR FACE SHAPE
AT THE VERY BEST.
Your password has been successfully reset.
Please check your email inbox for your temporary password.
Already have an account? Sign in
Move the slider to
see the power of
Colors look vibrant,
sharp and true.
With glare from reflective surfaces reduced, you don't need to squint.
See all the details you normally miss.
Polarized lenses eliminate 100% of UVA/UVB rays.
Polarized light is a concentration of light waves moving in the same direction and along the same plane. Light is like a wave that vibrates in many directions—it can vibrate from side to side or up and down. Polarized glare is caused by light waves vibrating horizontally. It can cause eye fatigue, headaches, or temporary blindness, which can lead to collisions or injuries.
Polarized sunglasses neutralize horizontal reflection of light by screening it through vertically oriented polarizing filters embedded in or applied onto the sunglass lens. Only the part of the light wave that is aligned with the microscopic openings (vertical) in the filter can pass through; the reflected light that is horizontally oriented will be blocked, and the glare will be muted significantly. These vertically oriented "polarizers" act almost like a high-tech "Venetian blind," and they filter out the reflected light.
Polarized lens technology was created
by Edwin H. Land in 1936. He also
invented instant photography, polarized
headlights, and was the co-founder of
the Polaroid Corporation.
It can take 6-7 seconds to adjust to glare,
and becomes progressively worse as you,
age. If glare impaired your vision for just
three seconds while driving 30 mph, you
would travel blind for 132 feet.
On a bright day, the strength of glare
light can be 3-4 times higher than the
ambient light you see, causing your
eye to adjust to the brightness.