Your search keyword '"Stange, Sy"' showing total 3 results

1. On collisionless ion and electron populations in the magnetic nozzle experiment (MNX)

Author

Cohen, Samuel A., Sun, Xuan, Ferraro, Nathaniel M., Scime, Earl E., Miah, Mahmood, Stange, Sy, Siefert, Nicholas S., and Boivin, Robert F.

Subjects

Fluorescence -- Analysis, Plasma devices -- Research, Magnetic fields -- Research, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

The Magnetic Nozzle Experiment (MNX) is a linear magnetized helicon-heated plasma device, with applications to advanced spacecraft-propulsion methods and solar-corona physics. This paper reviews ion and electron energy distributions measured in MNX with laser-induced fluorescence (LIF) and probes, respectively. Ions, cold and highly collisional in the main MNX region, are accelerated along a uniform magnetic field to sonic then supersonic speeds as they exit the main region through either mechanical or magnetic apertures. A sharp decrease in density downstream of the aperture(s) helps effect a transition from collisional to collisionless plasma. The electrons in the downstream region have an average energy somewhat higher than that in the main region. From LIF ion-velocity measurements, we find upstream of the aperture a presheath of strength [DELTA][[PHI].sub.ps] = [sub.mr][T.sub.e], where [sub.mr][T.sub.e] is the electron temperature in the main region, and length ~3 cm, comparable to the ion-neutral mean-free-path; immediately downstream of the aperture is an electrostatic double layer of strength [DELTA][[PHI].sub.DL] : 3-10 [sub.mr][T.sub.e] and length 0.3-0.6 cm, 30-600[[lambda].sub.D]. The existence of a small, ca. 0.1%, superthermal electron population with average energy ~ 10 [sub.mr][T.sub.e] is inferred from considerations of spectroscopic line ratios, floating potentials, and Langmuir probe data. The superthermal electrons are suggested to be the source for the large [DELTA][[PHI].sub.DL]. Index Terms--Double layer, helicon, laser-induced-fluorescence (LIF), magnetie nozzle.

Published

2006

2. Flame images indicating combustion enhancement by dielectric barrier discharges

Author

Stange, Sy, Kim, Yongho, Ferreri, Vincent, Rosocha, Louis A., and Coates, Don M.

Subjects

Dielectrics -- Research, Plasma physics -- Research, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

The capability of a plasma to enhance combustion has significant practical implications. We present pictures showing the effect of a dielectric barrier discharge applied to propane prior to combustion. The plasma causes an increase in the flame propagation rate, attributed to the production of reactive radicals and fuel fragments in the plasma. Index Terms--Dielectric barrier discharge, electric fields and flames, plasma-assisted combustion, silent discharge plasma.

Published

2005

3. Development and characterization of nanocomposite scintillators for gamma-ray detection.

Author

Stange, Sy, Esch, Ernst I., Bacrania, Minesh K., Brown, Leif O., Couture, Aaron J., Del Sesto, Rico E., Gilbertson, Robert D., Jacobsohn, Luiz G., McCleskey, T. Mark, McKigney, Edward A., Muenchausen, Ross E., and Reifarth, Rene

Published

2008