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Metal Print : Simulation of Higgs boson production
Metal Prints From Science Photo Library
Simulation of Higgs boson production
Simulated detection of Higgs boson. Computer simulation of an event in which the decay of a Higgs boson particle produces four muons. Two of these muons are seen here (green tracks). The muons, along with countless other particles (red and blue tracks), are produced in a head-on collision between two protons. The Higgs boson is a localised clustering in the Higgs Field. This field permeates space, and local distortions of the Higgs Field are thought to be the way that particles gain mass. This image shows how the Higgs boson might be seen in the CMS detector on the Large Hadron Collider at CERN, the European particle physics laboratory
Science Photo Library features Science and Medical images including photos and illustrations
Media ID 6291517
© DAVID PARKER/SCIENCE PHOTO LIBRARY
Cern Computer Screen Detector Electronic Display Higgs Boson Particle Particle Physics Research Particles Simulated Track Tracks Boson Higgs
16"x20" (51x41cm) Metal Print
Experience the wonders of scientific discovery with Media Storehouse's Metal Prints. This captivating image showcases a simulated detection of the elusive Higgs boson, a fundamental particle essential to our understanding of the universe. Witness the decay of a Higgs boson particle producing four muons, as depicted in this stunning computer simulation from Science Photo Library. Our high-quality metal prints bring vibrant colors and exceptional detail to your space, making this intriguing scientific moment a conversation starter in any room. Order now and elevate your home or office décor with the beauty and brilliance of science.
Made with durable metal and luxurious printing techniques, our metal photo prints go beyond traditional canvases, adding a cool, modern touch to your space. Wall mount on back. Eco-friendly 100% post-consumer recycled ChromaLuxe aluminum surface. The thickness of the print is 0.045". Featuring a Scratch-resistant surface and Rounded corners. Backing hangers are attached to the back of the print and float the print 1/2-inch off the wall when hung, the choice of hanger may vary depending on size and International orders will come with Float Mount hangers only. Finished with a brilliant white high gloss surface for unsurpassed detail and vibrance. Printed using Dye-Sublimation and for best care we recommend a non-ammonia glass cleaner, water, or isopropyl (rubbing) alcohol to prevent harming the print surface. We recommend using a clean, lint-free cloth to wipe off the print. The ultra-hard surface is scratch-resistant, waterproof and weatherproof. Avoid direct sunlight exposure.
Made with durable metal and luxurious printing techniques, metal prints bring images to life and add a modern touch to any space
Estimated Image Size (if not cropped) is 50.8cm x 40.6cm (20" x 16")
Estimated Product Size is 51.4cm x 41.2cm (20.2" x 16.2")
These are individually made so all sizes are approximate
Artwork printed orientated as per the preview above, with landscape (horizontal) orientation to match the source image.
EDITORS COMMENTS
This print from Science Photo Library showcases a simulation of Higgs boson production, offering a glimpse into the fascinating world of particle physics research. The image depicts the simulated detection of a Higgs boson, with four muons resulting from its decay. Two vibrant green tracks represent these muons, while numerous other particles are depicted by red and blue tracks. The photograph provides an insight into the complex process that occurs during a head-on collision between two protons within the Large Hadron Collider at CERN, Europe's renowned particle physics laboratory. The Higgs boson itself is portrayed as a localized clustering in the Higgs Field – an omnipresent force permeating space. What makes this image particularly intriguing is its representation of how scientists believe particles acquire mass through local distortions in the Higgs Field. By observing such phenomena using advanced detectors like CMS (Compact Muon Solenoid), researchers can gain valuable insights into fundamental aspects of our universe. Displayed on an electronic screen or computer monitor, this simulation offers viewers an opportunity to marvel at humanity's relentless pursuit of knowledge and understanding regarding the building blocks of our existence. As we delve deeper into these intricate simulations and experiments, we inch closer to unraveling some of nature's most profound mysteries – all thanks to groundbreaking scientific endeavors carried out by institutions like CERN and their dedicated teams.
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