Your search keyword '"J.S. Sarff"' showing total 3 results

1. Impurities, temperature and density in a miniature electrostatic plasma and current source

Author

D.J. Den Hartog, Gennady Fiksel, Darren Craig, and J.S. Sarff

Subjects

Dense plasma focus, Chemistry, Plasma parameters, Plasma torch, Plasma diagnostics, Plasma, Atomic physics, Condensed Matter Physics, Ion gun, Current density, Anode

Abstract

We have spectroscopically investigated the Sterling Scientific miniature electrostatic plasma source - a plasma gun. This gun is a clean source of high-density ( - ), low-temperature (5 - 15 eV) plasma. A key result of our investigation is that molybdenum from the gun electrodes is largely trapped in the internal gun discharge; only a small amount escapes in the plasma flowing out of the gun. In addition, the gun plasma parameters actually improve (even lower impurity contamination and higher ion temperature) when up to 1 kA of electron current is extracted from the gun via the application of an external bias. This improvement occurs because the internal gun anode no longer acts as the current return for the internal gun discharge. The gun plasma is a virtual plasma electrode capable of sourcing an electron emission current density of . The high emission current, small size (3 - 4 cm diameter), and low impurity generation make this gun attractive for a variety of fusion and plasma technology applications.

Published

1997

2. Strong radial electric field shear and reduced fluctuations in a reversed-field pinch

Author

B.E. Chapman, S.C. Prager, J.S. Sarff, and C. S. Chiang

Subjects

Condensed Matter::Soft Condensed Matter, Physics::Fluid Dynamics, Physics, Reversed field pinch, Shear (geology), Condensed matter physics, Physics::Plasma Physics, Electric field, Pinch, Magnetic confinement fusion, Plasma confinement, Plasma, Plasma edge

Abstract

A strongly sheared radial electric field is observed in enhanced confinement discharges in the MST reversed-field pinch. The strong shear develops in a narrow region in the plasma edge. Electrostatic fluctuations are reduced over the entire plasma edge with an extra reduction in the shear region. Magnetic fluctuations, resonant in the plasma core but global in extent, are also reduced. The reduction of fluctuations in the shear region is presumably due to the strong shear, but the causes of the reductions outside this region have not been established.

Published

1997

3. Impurities, temperature, and density in a miniature electrostatic plasma and current source

Author

J.S. Sarff, Gennady Fiksel, D.J. Den Hartog, and Darren Craig

Subjects

Dense plasma focus, Chemistry, Plasma parameters, Plasma diagnostics, Plasma, Electron, Atomic physics, Ion gun, Current density, Anode

Abstract

We have spectroscopically investigated the Sterling Scientific miniature electrostatic plasma source-a plasma gun. This gun is a clean source of high density (10{sup 19} - 10{sup 20} m{sup -3}), low temperature (5 - 15 eV) plasma. A key result of our investigation is that molybdenum from the gun electrodes is largely trapped in the internal gun discharge; only a small amount escapes in the plasma flowing out of the gun. In addition, the gun plasma parameters actually improve (even lower impurity contamination and higher ion temperature) when up to 1 kA of electron current is extracted from the gun via the application of an external bias. This improvement occurs because the internal gun anode no longer acts as the current return for the internal gun discharge. The gun plasma is a virtual plasma electrode capable of sourcing an electron emission current density of 1 kA/cm{sup 2}. The high emission current, small size (3 - 4 cm diameter), and low impurity generation make this gun attractive for a variety of fusion and plasma technology applications.

Published

1996