I. A. Krinberg scite author profile

It is proposed to use a great body of vacuum arc plasma parameters measured in combination with a theoretical model of a current-carrying plasma jet for the determination of cathodic microjet parameters. The most probable values of microspot diameter and microjet current thus obtained lie in the range and I = 1 - 5 A, respectively. It is also shown that the mean ion charge variations observed can be essentially explained by a periodical variation of the ionization energy set with the atomic number of the cathode material.

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Influence of the magnetic self-field on the formation of a cathode plasma jet in steady-state vacuum arcs

Krinberg

Zverev

1997

Tech. Phys. Lett.

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The ion charge-current strength relationship in stationary and pulsed vacuum discharges

Krinberg

2001

Tech. Phys. Lett.

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Acceleration of a multicomponent plasma in the cathode region of a vacuum arc

Krinberg

2001

Tech. Phys.

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Pinch effect in vacuum arc plasma sources under moderate discharge currents

Krinberg¹,

Paperny²

2002

J. Phys. D: Appl. Phys.

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An analysis of a wide set of events, which have been observed in cathode plasma jet of vacuum arcs and sparks, is presented. In particular, they are (i) the substantial decrease of cross-section of cathode jet in a steady-state vacuum arc far from the cathode, (ii) the appearance of high charge states of ions under discharge current increase and pulse duration decrease and (iii) the significant enhancement of the energy of ions in cathode plasma jet with increase of the current rise rate and of the interelectrode gap length. We concluded that these effects, revealed within a wide range of discharge parameters, are similar in nature and could be explained by cathode plasma jet pinching out of the near-cathode region. This qualitative conclusion was supported by quantitative estimation of magnetic compression influence on plasma properties. Such estimations were obtained from theoretical models which have been developed to describe both the steady-state jet and a jet with increasing current.

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I. A. Krinberg

Application of a vacuum arc model to the determination of cathodic microjet parameters

Influence of the magnetic self-field on the formation of a cathode plasma jet in steady-state vacuum arcs

The ion charge-current strength relationship in stationary and pulsed vacuum discharges

Acceleration of a multicomponent plasma in the cathode region of a vacuum arc

Pinch effect in vacuum arc plasma sources under moderate discharge currents

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