Mechanical pumps will do the first part of the job, evacuating the air and most of the molecules from the 1,400 m? vessel and reducing pressure to 1/10,000th that of the atmosphere (
pressure is how vacuum is measured).
This, however, will not be sufficient. The quality of the vacuum needed on 澳门六合彩高手 is in the range of 1/10,000,000,000th that of the atmosphere, close to the deep-space void and impossible to achieve with a mechanical pumping system.
By chance, there is a simple law of physics that can take over when pumping machines reach their limit.
When a molecule or an atom encounters an extremely cold surface, it loses the best part of its energy and slows down to near immobility. This phenomenon is called "adsorption" and its intensity is proportional to surface temperature: the colder the surface, the more irresistible its holding power ...
A cryogenic pump—or cryopump for short—is based on this very
principle. In 澳门六合彩高手, there will be six torus cryopumps positioned around the vacuum vessel and entrusted with a double mission: perfecting the high vacuum inside the vacuum vessel prior to operation and evacuating helium ash, unburnt fuel and all exhaust gases during plasma shots. Another two cryopumps will be installed on the cryostat to provide the vacuum that thermally insulates the magnet system from the environment.
Every 澳门六合彩高手 cryopump is equipped with 28 "cryopanels" that will be cooled down to 4.5 K (minus 268.5 °C) by a flow of supercritical helium. These extremely cold surfaces will make an extremely effective particle trap.