Use code RJTJFG for 20% off at checkout. Until 5/31/20
Boundary: Bleed area may not be visible.
by Oliver Meckes EYE OF SCIENCE
$32.00
Model
Case Style
Orientation
Image Size
Product Details
Photonic Glass #1 iPhone case by Oliver Meckes EYE OF SCIENCE. Protect your iPhone with an impact-resistant, slim-profile, hard-shell case. The image is printed directly onto the case and wrapped around the edges for a beautiful presentation. Simply snap the case onto your iPhone for instant protection and direct access to all of the phone's features!
Design Details
Scanning electron micrograph of photonic glass. These polystyrene hollow spheres are 172nm in diameter. They have the optical properties of an opal.... more
Ships Within
3 - 4 business days
Photograph
Canvas Print
Framed Print
Art Print
Poster
Metal Print
Acrylic Print
Wood Print
Greeting Card
iPhone Case
Throw Pillow
Duvet Cover
Shower Curtain
Tote Bag
Round Beach Towel
Zip Pouch
Beach Towel
Weekender Tote Bag
Portable Battery Charger
Bath Towel
Apparel
Coffee Mug
Yoga Mat
Spiral Notebook
Fleece Blanket
Tapestry
Jigsaw Puzzle
Sticker
Ornament
Protect your with an impact-resistant, slim-profile, hard-shell case. The image is printed directly onto the case and wrapped around the edges for a beautiful presentation. Simply snap the case onto your for instant protection and direct access to all of the phone's features!
Scanning electron micrograph of photonic glass. These polystyrene hollow spheres are 172nm in diameter. They have the optical properties of an opal. Photonic crystals contain regularly repeating regions of high and low dielectric constant. Photons (behaving as waves) either propagate through this structure or not, depending on their wavelength. Intuitively, the bandgap of photonic crystals can be understood to arise from the destructive interference of multiple reflections of light propagating in the crystal at the interfaces of the high and low dielectric constant regions, akin to the bandgaps of electrons in solids. The periodicity of the photonic glass structure must be around half the wavelength of the electromagnetic waves to be diffracted. This is ~350 nm (blue) to ~650 nm (red) for photonic crystals that operate in the visible part of the spectrum, or even less, depending on average index of refraction. Photonic glasses are attractive optical materials for controlling and manipu...
$32.00
There are no comments for Photonic Glass #1. Click here to post the first comment.