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#4
May 27th 05, 01:37 AM
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"Tracy Hall" wrote in message oups.com... I understand that coaxial cable does not radiate much energy because symmetric opposing current sheets in the outer skin of the center conductor and the inner skin of the shield essentially balance each other. Suppose I route coax through a strong DC magnetic field, such as in an MRI, with the magnetic field perpendicular to the cable axis. Will the current distribution in the center conductor then become biased "up" with respect to the field (right hand rule), and the current distribution in the shield then become biased "down," thereby destroying symmetry? If so, will the coax then radiate and become lossy? Can anyone point me to an analysis of this problem? no, the coax fields still cancel at a distance (small) But most coax is between 90% and 98% covered, not 100%, so there can be leakage into or out of but not at DC, there is no effect on the coax (which is high frequency) |
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