Your search keyword '"Scime, E. E."' showing total 10 results

1. Ulysses Solar Wind Plasma Observations at High Southerly Latitudes

Author

Phillips, J. L., Bame, S. J., Feldman, W. C., Goldstein, B. E., Gosling, J. T., Hammond, C. M., McComas, D. J., Neugebauer, M., Scime, E. E., and Suess, S. T.

Published

1995

2. Influence of magnetic angle on the E × B drift in a magnetic presheath.

Author

Caron, D. and Scime, E. E.

Subjects

*PLASMA sheaths, *LASER-induced fluorescence, *SPEED of sound, *MAGNETIC fields, *FLOW measurement

Abstract

In this work, we provide experimental measurements of the E × B flow above a non-magnetic, absorbing boundary in a magnetized plasma. Measurements are taken as a function of the angle between the background magnetic field and the boundary normal. The measurements are compared to computational predictions for oblique magnetic fields based on Chodura's model. Ion flow measurements were obtained with laser induced fluorescence and the presheath potential structure was measured with an emissive probe. The ions were found to accelerate to nearly 30% of the sound speed parallel to the boundary at oblique angles of the magnetic field (∼80°) and the ion speed at the electrostatic sheath edge was found to decrease with angle. The edge of the magnetic presheath has been experimentally determined based on the appearance of the E × B drift and is found to be independent of the angle of the magnetic field. We also demonstrate that laser induced fluorescence is suitable as a non-perturbative diagnostic to measure the electric field in a magnetized sheath. [ABSTRACT FROM AUTHOR]

Published

2021

3. Magnetic field imaging in a laboratory plasma.

Author

Gilbert, T. J., Stevenson, K. J., Paul, M. C., Steinberger, T. E., and Scime, E. E.

Subjects

MAGNETIC field measurements, MAGNETIC fields, MAGNETIC measurements, DETECTION limit, LASER-induced fluorescence, DISTRIBUTION (Probability theory)

Abstract

In laboratory plasmas, arrays of probes have typically been used to measure the evolution of the magnetic field topology. Here, we present initial image-based measurements of the magnetic topology in a low-temperature plasma using a purely optical diagnostic. Laser induced fluorescence measurements of neutral velocity distribution functions are made using a fast camera, imaging the Zeeman splitting of σ-peaks in neutral argon. The separation of σ-peaks provides spatially resolved magnetic field magnitude measurements with a detection threshold on the order of 10 G. [ABSTRACT FROM AUTHOR]

Published

2021

4. Direct measurements of the ionization profile in krypton helicon plasmas.

Author

Magee, R. M., Galante, M. E., Gulbrandsen, N., McCarren, D. W., and Scime, E. E.

Subjects

PHYSICAL measurements, PLASMA density, IONIZATION (Atomic physics), KRYPTON, HELICON, GAUGE field theory, MAGNETIC fields

Abstract

Helicons are efficient plasma sources, capable of producing plasma densities of 1019 m-3 with only 100 s W of input rf power. There are often steep density gradients in both the neutral density and plasma density, resulting in a fully ionized core a few cm wide surrounded by a weakly ionized plasma. The ionization profile is usually not well known because the neutral density is typically inferred from indirect spectroscopic measurements or from edge pressure gauge measurements. We have developed a two photon absorption laser induced fluorescence (TALIF) diagnostic capable of directly measuring the neutral density profile. We use TALIF in conjunction with a Langmuir probe to measure the ionization fraction profile as a function of driving frequency, magnetic field, and input power. It is found that when the frequency of the driving wave is greater than a critical frequency, fc≈3flh, where flh is the lower hybrid frequency at the antenna, the ionization fraction is small (0.1%) and the plasma density low (1017 m-3). As the axial magnetic field is increased, or, equivalently, the driving frequency decreased, a transition is observed. The plasma density increases by a factor of 10 or more, the plasma density profile becomes strongly peaked, the neutral density profile becomes strongly hollow, and the ionization fraction in the core approaches 100%. Neutral depletion in the core can be caused by a number of mechanisms. We find that in these experiments the depletion is due primarily to plasma pressure and neutral pumping. [ABSTRACT FROM AUTHOR]

Published

2012

5. A magneto-optic probe for magnetic fluctuation measurements.

Author

Przybysz, W. S., Ellis, J., Thakur, S. Chakraborty, Hansen, A., Hardin, R. A., Sears, S., and Scime, E. E.

Subjects

MAGNETIC fields, OPTICAL fibers, POLARIZERS (Light), OPTOELECTRONIC devices, ELECTROSTATICS, POLARIMETRY

Abstract

Results from a proof-of-principle experiment are presented that demonstrate it is possible to construct a completely optical, robust, and compact probe capable of spatially resolved measurements of magnetic field fluctuations smaller than 1 G over a frequency range of 1 Hz–8 MHz in a plasma. In contrast to conventional coil probes, the signal strength is independent of fluctuation frequency and the measurement technique is immune to electrostatic pickup. The probe consists of a high Verdet constant crystal, two polarizers, optical fibers, and a photodetector. [ABSTRACT FROM AUTHOR]

Published

2009

6. E B energy-mass spectrograph for measurement of ions and neutral atoms.

Author

Funsten, McComas, D. d., and Scime, E. E.

Subjects

SPECTROGRAPHS, THOMSON scattering, ELECTRIC fields, MAGNETIC fields, PLASMA gases

Abstract

Describes a Thomson parabola spectrograph that utilizes an electric field parallel to a magnetic field and a two-dimensional imaging detector to uniquely identify the energy-per-charge and mass-per-charge distributions of plasma ions. Characteristics of the spectrograph; Removal of deviations of observed spectra; Applicability of the spectrograph for neutral atom identification.

Published

1997

7. Simultaneous two-dimensional laser-induced-fluorescence measurements of argon ions.

Author

Hansen, A. K., Galante, Matthew, McCarren, Dustin, Sears, Stephanie, and Scime, E. E.

Subjects

FLUORESCENCE, ARGON, HELICON, LASERS in plasma diagnostics, LASER beams, PHOTOMULTIPLIERS, MAGNETIC fields, PHYSICS experiments

Abstract

Recent laser upgrades on the Hot Helicon Experiment at West Virginia University have enabled multiplexed simultaneous measurements of the ion velocity distribution function at a single location, expanding our capabilities in laser-induced fluorescence diagnostics. The laser output is split into two beams, each modulated with an optical chopper and injected perpendicular and parallel to the magnetic field. Light from the crossing point of the beams is transported to a narrow-band photomultiplier tube filtered at the fluorescence wavelength and monitored by two lock-in amplifiers, each referenced to one of the two chopper frequencies. [ABSTRACT FROM AUTHOR]

Published

2010

8. Spontaneous ion beam formation in the laboratory, space, and simulation.

Author

Carr, J., Cassak, P. A., Galante, M., Keesee, A. M., Lusk, G., Magee, R. M., McCarren, D., Scime, E. E., Sears, S., Vandervort, R., Gulbrandsen, N., Goldman, Martin, Newman, David, and Eastwood, J. P.

Subjects

ION beams, MAGNETOSPHERE, MAGNETIC fields, SIMULATION methods & models, VELOCITY distribution (Statistical mechanics), MAGNETIC reconnection, ELECTRIC fields, HEATING

Abstract

We present experimental evidence for the spontaneous formation of multiple double layers within a single divergent magnetic field structure. Downstream of the divergent magnetic field, multiple accelerated ion populations are observed. The similarity of the accelerated ion populations observed in these laboratory experiments to ion populations observed in the magnetosphere and in numerical simulations suggests that the observation of a complex ion velocity distribution alone is insufficient to distinguish between simple plasma expansion and magnetic reconnection. Further, the effective temperature of the aggregate ion population is significantly larger than the temperatures of the individual ion population components, suggesting that insufficiently resolved measurements could misidentify multiple beam creation as ion heating. Ions accelerated in randomly oriented electric fields that mimic heating would have an ion heating rate dependent on the ion charge and mass that is qualitatively consistent with recent experimental observations of ion heating during magnetic reconnection. [ABSTRACT FROM AUTHOR]

Published

2013

9. Ion heating and short wavelength fluctuations in a helicon plasma source.

Author

Scime, E. E., Carr, J., Galante, M., Magee, R. M., and Hardin, R.

Subjects

*HELICON, *ANTENNAS (Electronics), *WAVELENGTHS, *PLASMA sources, *MAGNETIC fields

Abstract

For typical helicon source parameters, the driving antenna can couple to two plasma modes; the weakly damped 'helicon' wave, and the strongly damped, short wavelength, slow wave. Here, we present direct measurements, obtained with two different techniques, of few hundred kHz, short wavelength fluctuations that are parametrically driven by the primary antenna and localized to the edge of the plasma. The short wavelength fluctuations appear for plasma source parameters such that the driving frequency is approximately equal to the lower hybrid frequency. Measurements of the steady-state ion temperature and fluctuation amplitude radial profiles suggest that the anomalously high ion temperatures observed at the edge of helicon sources result from damping of the short wavelength fluctuations. Additional measurements of the time evolution of the ion temperature and fluctuation profiles in pulsed helicon source plasmas support the same conclusion. [ABSTRACT FROM AUTHOR]

Published

2013

10. Comparison of azimuthal ion velocity profiles using Mach probes, time delay estimation, and laser induced fluorescence in a linear plasma device.

Author

Thakur, S. Chakraborty, McCarren, D., Lee, T., Fedorczak, N., Manz, P., Scime, E. E., Tynan, G. R., Xu, M., and Yu, J.

Subjects

COMPARATIVE studies, MAGNETIC fields, PLASMA diagnostics, LANGMUIR probes, TIME delay systems, DOPPLER effect, PLASMA turbulence

Abstract

We compare measurements of radially sheared azimuthal plasma flow based on time delay estimation (TDE) between two spatially separated Langmuir probes, Mach probes and laser induced fluorescence (LIF). TDE measurements cannot distinguish between ion fluid velocities and phase velocities. TDE and Mach probes are perturbative, so we compare the results against LIF, a non-perturbative, spatially resolved diagnostic technique that provides direct measurements of the ion velocity distribution functions. The bulk ion flow is determined from the Doppler shift of the Argon absorption line at 668.6139 nm. We compare results from all the three diagnostics, at various magnetic fields, which acts as a control knob for development of drift wave turbulence. We find that while Mach probes and LIF give similar profiles, TDE measurements typically overestimate the velocities and are also sensitive to the drift wave modes being investigated. [ABSTRACT FROM AUTHOR]

Published

2012