1979
DOI: 10.1063/1.326277
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Propagation of power pulses in magnetically insulated vacuum transmission lines

Abstract: The propagation of a 1.8-MV 80-kA power pulse in a 10-m-long 41.6-Ω impedance coaxial vacuum transmission line has been investigated experimentally. The onset of magnetic insulation has been correlated to attainment of the critical current. Measurements of boundary (cathode) current suggest that 50–60% of the current flows in space charge in the axial direction between the conductors. The pulse sharpens as it propagates and attains a stationary shape. Pulse rise times of 4 ns were observed. Propagation velocit… Show more

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Cited by 64 publications
(11 citation statements)
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“…This emission threshold is consistent with several published estimates for stainless steel and aluminum cathode materials (see, for example, Ref. [36]). The desorption is initiated on a cell-by-cell basis once the local electric field exceeds the threshold set for SCL emission, although other criteria can be specified.…”
Section: Simulation Modelsupporting
confidence: 90%
“…This emission threshold is consistent with several published estimates for stainless steel and aluminum cathode materials (see, for example, Ref. [36]). The desorption is initiated on a cell-by-cell basis once the local electric field exceeds the threshold set for SCL emission, although other criteria can be specified.…”
Section: Simulation Modelsupporting
confidence: 90%
“…This emission threshold is consistent with several published estimates for stainless steel and aluminum cathode materials (see, for example, Ref. [25]). …”
Section: Simulation Modelsupporting
confidence: 81%
“…This threshold is that deduced by Di Capua and Pellinen [50]. Once this field is reached in a MITL element, electrons are always emitted thereafter in that element.…”
Section: B Electron Loss Before Insulation Is Establishedmentioning
confidence: 86%