Е. М. Окс scite author profile

Ion velocities in vacuum arc plasmas have been measured for most conducting elements of the Periodic Table. The method is based on drift time measurements via the delay time between arc current modulation and ion flux modulation. A correlation has been found between the element-specific ion velocity and average ion charge state; however, differently charged ions of the same element have approximately the same velocity. These findings contradict the potential hump model but are in agreement with a gasdynamic model that describes ion acceleration as driven by pressure gradients and electron-ion friction. The differences between elements can be explained by the element-specific power density of the cathode spot plasma which in turn determines the temperature, average charge state, and ion velocity of the expanding vacuum arc plasma.

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Ion charge state distributions in high current vacuum arc plasmas in a magnetic field

Окс

Anders

Brown

et al. 1996

IEEE Trans. Plasma Sci.

166

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Plasma Cathode Electron Sources

Окс¹

2006

125

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Production of neutrals and their effects on the ion charge states in cathodic vacuum arc plasmas

Anders

Окс

Yushkov

2007

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Cathodic arc plasmas are considered fully ionized and they contain multiply charged ions, yet, gaseous and metal neutrals can be present. It is shown that they can cause a significant reduction of the ion charge states as measured far from the cathode spots. Several cathode materials were used to study the evolution the mean ion charge state as a function of time after arc ignition. The type of cathode material, arc current amplitude, intentionally increased background gas, additional surfaces placed near the plasma flow, and other factors influence the degree of charge state reduction because all of these factors influence the density of neutrals. In all cases, it was found that the mean ion charge state follows an exponential decay of first order, ( ) ( )

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Measurements of the total ion flux from vacuum arc cathode spots

Anders

Окс

Yushkov

et al. 2005

IEEE Trans. Plasma Sci.

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-The ion flux from vacuum arc cathode spots was measured in two vacuum arc systems. The first was a vacuum arc ion source which was modified allowing us to collect ions from arc plasma streaming through an anode mesh. The second discharge system essentially consisted of a cathode placed near the center of a spherically shaped mesh anode. In both systems, the ion current streaming through the mesh was measured by a biased collector. The mesh anodes had geometric transmittances of 60% and 72%, respectively, which were taken into account as correction factors. The ion current from different cathode materials was measured for 50-500 A of arc current. The ion current normalized by the arc current was found to depend on the cathode material, with values in the range from 5% to 19%. The normalized ion current was generally greater for elements of low cohesive energy. The ion erosion rates were determined from values of ion current and ion charge states, which were previously measured in the same ion source. The absolute ion erosion rates ranged from 16-173 µg/C.

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Е. М. Окс

Ion velocities in vacuum arc plasmas

Ion charge state distributions in high current vacuum arc plasmas in a magnetic field

Plasma Cathode Electron Sources

Production of neutrals and their effects on the ion charge states in cathodic vacuum arc plasmas

Measurements of the total ion flux from vacuum arc cathode spots

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