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Poster Print : Proton collision C014 / 1797
Poster Prints from Science Photo Library
Proton collision C014 / 1797
Particle tracks from a proton-proton collision seen by the CMS (compact muon solenoid) detector at CERN (the European particle physics laboratory) near Geneva, Switzerland. Before the collision the ions had been accelerated by the large hadron collider (LHC). A large number of particles (orange lines) were created by the collision. Among them was a Higgs boson. The particle was not seen, but is revealed through its decay products; a pair of Z bosons that each decay into a pair of muons (long red lines). The Higgs boson is thought to give other particles mass. The first sighting of it was announced by scientists at CERN on 4th July 2012
Science Photo Library features Science and Medical images including photos and illustrations
Media ID 9226451
© CMS EXPERIMENT, CERN/SCIENCE PHOTO LIBRARY
Apparatus Cern Collision Compact Muon Solenoid Cosmological Cosmology Decay Products European Particle Physics Laboratory Experiment Fundamental Particles Geneva God Particle Higgs Boson Large Hadron Collider Matter Muon Pair Muons Particle Accelerator Particle Detector Particle Physics Particle Track Proton Proton Proton Proton Collision Structure Of Matter Subatomic Particles Switzerland Trace Traces Tracks Trajectories Trajectory Physical
A2 (59.4 x 42cm) Poster Print
Introducing the Media Storehouse range of Poster Prints featuring the captivating image "Proton collision C014 / 1797" by CMS EXPERIMENT from the Science Photo Library. This striking poster showcases the mesmerizing results of a proton-proton collision as recorded by the Compact Muon Solenoid (CMS) detector at Europe's largest particle physics laboratory, CERN, near Geneva, Switzerland. Delve into the intriguing world of subatomic particles and witness the beauty of scientific discovery with this visually stimulating poster print. Order yours today and bring the wonders of the universe into your home or office.
A2 Poster (59.4 x 42cm, 23.4" x 16.5" inches) printed on 170gsm Satin Poster Paper. Securely packaged, rolled and inserted into a strong mailing tube and shipped tracked. Poster Prints are of comparable archival quality to our Photographic prints, they are simply printed on thinner Poster Paper. Whilst we only use Photographic Prints in our frames, you can frame Poster Prints if they are carefully supported to prevent sagging over time.
Poster prints are budget friendly enlarged prints in standard poster paper sizes (A0, A1, A2, A3 etc). Whilst poster paper is sometimes thinner and less durable than our other paper types, they are still ok for framing and should last many years. Our Archival Quality Photo Prints and Fine Art Paper Prints are printed on higher quality paper and the choice of which largely depends on your budget.
Estimated Image Size (if not cropped) is 56cm x 42cm (22" x 16.5")
Estimated Product Size is 59.4cm x 42cm (23.4" x 16.5")
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.
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EDITORS COMMENTS
This print captures the aftermath of a proton-proton collision within the CMS (compact muon solenoid) detector at CERN, near Geneva, Switzerland. The ions had been accelerated by the powerful Large Hadron Collider (LHC), leading to an explosion of particles upon collision. Among this chaotic dance of subatomic entities lies a significant discovery - the elusive Higgs boson. Although not directly observed in this image, scientists were able to identify its presence through its decay products: a pair of Z bosons that each disintegrate into two long red lines representing muons. This groundbreaking revelation was announced on July 4th, 2012, marking a monumental milestone in particle physics. The Higgs boson is believed to be responsible for imparting mass onto other particles and plays a crucial role in our understanding of the structure and composition of matter. Its detection shed light on fundamental questions about the universe's origins and provided valuable insights into cosmology. Displayed against a black background, this mesmerizing photograph showcases the intricate trajectories left behind by various subatomic particles as they traverse through space-time. It serves as a testament to humanity's relentless pursuit of knowledge and our ceaseless exploration into the mysteries that govern our existence. With its combination of scientific precision and aesthetic beauty, this image encapsulates both the immense complexity inherent in particle collisions and their profound implications for unraveling nature's deepest secrets.
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