k Internal structure of the LHC, CERN Internal structure of the LHC. The small tubes at lower centre contain the complex circuitry of the LHC large hadron collider at CERN the European particle physics laboratory near Geneva, Switzerland. The LHC is a 27kilometre underground ring of superconducting magnets housed in this pipelike structure lower left and right, or cryostat. The cryostat is cooled by liquid helium to keep the operating temperature at just above absolute zero. The LHC works by accelerating two counterrotating proton beams to an energy of 7 tera electron volts TeV. It then forces these beams to collide headon near two main detectors, known as the CMS Compact Muon Solenoid and ATLAS A Toroidal LHC Apparatus, which detect the sub atomic particles resulting from the collision. The LHC is scheduled to start operating in May 2008. Stock Photo - Afloimages
Sign up
Login
All images
Internal structure of the LHC, CERN Internal structure of the LHC. The small tubes at lower centre contain the complex circuitry of the LHC large hadron collider at CERN the European particle physics laboratory near Geneva, Switzerland. The LHC is a 27 kilometre underground ring of superconducting magnets housed in this pipe like structure lower left and right , or cryostat. The cryostat is cooled by liquid helium to keep the operating temperature at just above absolute zero. The LHC works by accelerating two counter rotating proton beams to an energy of 7 tera electron volts TeV . It then forces these beams to collide head on near two main detectors, known as the CMS Compact Muon Solenoid and ATLAS A Toroidal LHC Apparatus , which detect the sub atomic particles resulting from the collision. The LHC is scheduled to start operating in May 2008.
RM
Add to Lightbox
Download Comp

Internal structure of the LHC, CERN

Internal structure of the LHC. The small tubes at lower centre contain the complex circuitry of the LHC (large hadron collider) at CERN (the European particle physics laboratory) near Geneva, Switzerland. The LHC is a 27-kilometre underground ring of superconducting magnets housed in this pipe-like structure (lower left and right), or cryostat. The cryostat is cooled by liquid helium to keep the operating temperature at just above absolute zero. The LHC works by accelerating two counter-rotating proton beams to an energy of 7 tera electron volts (TeV). It then forces these beams to collide head-on near two main detectors, known as the CMS (Compact Muon Solenoid) and ATLAS (A Toroidal LHC Apparatus), which detect the sub- atomic particles resulting from the collision. The LHC is scheduled to start operating in May 2008.

Details

ID
145084119

Collection

License type
Rights Managed

Photographer



More
Top Categories
Editorial
2024 Paris Olympics
Latest News
Latest Sport
Latest Entertainment
2020 Tokyo Olympics
Creative
People and Lifestyle
Sport and Leisure
Business and Technology
Landscape
Animals
Videos
Sport and Leisure
Drone and Timelapse
People and Lifestyle
Business and Technology
Landscape
Sign in
Register
Member access
Login not found.
Forgot Your Password?