L. M. Blush scite author profile

The Plasma and Suprathermal Ion Composition (PLASTIC) investigation provides the in situ solar wind and low energy heliospheric ion measurements for the NASA Solar Terrestrial Relations Observatory Mission, which consists of two spacecraft (STEREO-A, STEREO-B). PLASTIC-A and PLASTIC-B are identical. Each PLASTIC is a timeof-flight/energy mass spectrometer designed to determine the elemental composition, ionic charge states, and bulk flow parameters of major solar wind ions in the mass range from hydrogen to iron. PLASTIC has nearly complete angular coverage in the ecliptic plane and an energy range from ∼0.3 to 80 keV/e, from which the distribution functions of suprathermal ions, including those ions created in pick-up and local shock acceleration processes, are also provided.

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The Plasma and Suprathermal Ion Composition (PLASTIC) Investigation on the STEREO Observatories

Galvin

Kistler

Popecki

et al.

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Turbulent edge transport in the Princeton Beta Experiment-Modified high confinement mode

Tynan¹,

Schmitz²,

Blush³

et al. 1994

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The first probe measurements of edge turbulence and transport in a neutral beam induced high confinement mode (H-mode) are reported. A strong negative radial electric field is directly observed in H-mode. A transient suppression of normalized ion saturation and floating potential fluctuation levels occurs at the low confinement mode to high confinement mode (L–H) transition, followed by a recovery to near low mode (L-mode) levels. The average poloidal wave number and the poloidal wave-number spectral width are decreased, and the correlation between fluctuating density and potential is reduced. A large-amplitude coherent oscillation, localized to the strong radial electric field region, is observed in H-mode but does not cause transport. In H-mode the effective turbulent diffusion coefficient is reduced by an order of magnitude inside the last closed flux surface and in the scrape-off layer. The results are compared with a heuristic model of turbulence suppression by velocity-shear stabilization.

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Five spacecraft observations of oppositely directed exhaust jets from a magnetic reconnection X‐line extending > 4.26 × 10⁶ km in the solar wind at 1 AU

Gosling

Eriksson

Blush

et al. 2007

Geophysical Research Letters

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Observations of oppositely directed plasma jets within an extended, bifurcated current sheet in the solar wind by a flotilla of five well‐separated spacecraft (STEREO A and B, ACE, Wind and Geotail) on 11 March 2007 demonstrate that magnetic reconnection X‐lines in the solar wind can extend to distances at least as great as 4.26 × 106 km (0.0284 AU) in the presence of a significant and variable guide field. The observations also indicate that reconnection in the solar wind can persist for at least 5 hours and 20 minutes. These minimum values are the largest yet obtained from direct measurements of reconnection exhaust flows in a space plasma. Both dynamic processes in the reconnection region and the spherical expansion of the solar wind probably contribute to the production of long X‐lines in the solar wind.

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Temporal Evolution of the Solar Wind Bulk Velocity at Solar Minimum by Correlating the STEREO A and B PLASTIC Measurements

et al. 2009

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The two STEREO spacecraft with nearly identical instrumentation were launched near solar activity minimum and they separate by about 45°per year, providing a unique tool to study the temporal evolution of the solar wind. We analyze the solar wind bulk velocity measured by the two PLASTIC plasma instruments onboard the two STEREO spacecraft. During the first half year of our measurements (March -August 2007) we find the typical alternating slow and fast solar wind stream pattern expected at solar minimum. To evaluate the temporal evolution of the solar wind bulk velocity we exclude the spatial variations and calculate the correlation between the solar wind bulk velocity measured by the two spacecraft. We account for the different spacecraft positions in radial distance and longitude by calculating the corresponding time lag. After adjusting for this time lag we compare the solar wind bulk velocity measurements at the two spacecraft and calculate the correlation between the two time-shifted datasets. We show how this correlation decreases as the time difference between two corresponding measurements increases. As a result, the characteristic temporal changes in the solar wind bulk velocity can be inferred. The obtained correlation is 0.95 for a time lag of 0.5 days and 0.85 for 2 days.

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L. M. Blush

The Plasma and Suprathermal Ion Composition (PLASTIC) Investigation on the STEREO Observatories

The Plasma and Suprathermal Ion Composition (PLASTIC) Investigation on the STEREO Observatories

Turbulent edge transport in the Princeton Beta Experiment-Modified high confinement mode

Five spacecraft observations of oppositely directed exhaust jets from a magnetic reconnection X‐line extending > 4.26 × 10⁶ km in the solar wind at 1 AU

Temporal Evolution of the Solar Wind Bulk Velocity at Solar Minimum by Correlating the STEREO A and B PLASTIC Measurements

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About

L. M. Blush

The Plasma and Suprathermal Ion Composition (PLASTIC) Investigation on the STEREO Observatories

The Plasma and Suprathermal Ion Composition (PLASTIC) Investigation on the STEREO Observatories

Turbulent edge transport in the Princeton Beta Experiment-Modified high confinement mode

Five spacecraft observations of oppositely directed exhaust jets from a magnetic reconnection X‐line extending > 4.26 × 106 km in the solar wind at 1 AU

Temporal Evolution of the Solar Wind Bulk Velocity at Solar Minimum by Correlating the STEREO A and B PLASTIC Measurements

Contact Info

Product

Resources

About

Five spacecraft observations of oppositely directed exhaust jets from a magnetic reconnection X‐line extending > 4.26 × 10⁶ km in the solar wind at 1 AU