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The watermark at the lower right corner of the image will not appear on the final product.
by Omikron
$51.00
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Product Details
Our luxuriously soft blankets are available in two different sizes and feature incredible artwork on the top surface. The bottom surface is white. Our 100% polyester blankets are available in two different styles: plush fleece and sherpa fleece. Plush fleece blankets are soft and fluffy on both sides, whereas sherpa blankets are smooth like a soft sweater on the artwork side (i.e. shorter threads) which provides for a sharper image. Looking for a recommendation? Go with a 60" x 80" plush fleece blanket. It's soft and luxurious on both sides... the artwork looks incredible... and the size is just right for everyone.
Design Details
This image of a proton-photon collision was obtained with a bubble chamber at the Stanford Linear Accelerator Center (SLAC), showing the collision... more
Care Instructions
Machine wash cold and tumble dry with low heat.
Ships Within
1 - 2 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
This image of a proton-photon collision was obtained with a bubble chamber at the Stanford Linear Accelerator Center (SLAC), showing the collision between an hydrogen nucleus (proton) and a high-energy photon. The collision has taken place in the area at center right; the track of the photon is not visible because only charged particles leave tracks in a bubble chamber. Nine particles (in red) are seen branching from the collision site heading towards the bottom of the image. The tight spirals scattered in the frame are electrons whose trajectories are strongly curved by the magnetic field of the bubble chamber. The high-energy photon was produced by allowing SLAC's 2-mile electron beam to strike a target, releasing the photon. Designed as a 20-Bev. machine, the 21 Bev. accelerator also exceeded its design intensity of 50 milliamperes on the weekend of December 7th, 1968.
$51.00
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