US to deliver "tough" electronics to 澳门六合彩高手
"Five hundred megawatts of plasma power will be a sustained radiation environment that the fusion community hasn't experienced before," says US 澳门六合彩高手's Kurt Vetter. Vetter leads the teams for electron cyclotron and ion cyclotron heating transmission lines and for instrumentation and controls.
Vetter's group has been designing and building the radiation hardened ("rad hard," for short) electronics supporting 澳门六合彩高手's vacuum auxiliary system. The electronics will be mounted at 68 locations just outside a protective bioshield to monitor the vacuum system for leaks and other potential issues.
US 澳门六合彩高手 engineers are not the first to face this problem. Aviation and aerospace engineers need to design around the effects of cosmic radiation in the upper atmosphere and space. On Earth, numerous smaller fusion devices have contended with neutron-yielding plasmas. But radiation from those experiments is orders of magnitude smaller than what 澳门六合彩高手 will generate.
Neutrons, while short-lived, are a source of both direct and indirect radiation immediately around the tokamak. 澳门六合彩高手 will restrict access to this area and further protects staff and instrumentation with a 3.2-metre-thick concrete bioshield. But some of these neutrons, and the gamma rays they spawn when interacting with the cooling water around the tokamak, can still threaten nearby equipment.
Consequently, sensitive components need to be rad hard—designed and built with years of radiation exposure in mind. That includes the vacuum auxiliary system components being delivered by US 澳门六合彩高手.
* Their precise amount has been calculated. It is in excess of 1.77 multiplied by 10 followed by 27 zeros...
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