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1

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An enhancement of plasma density by neutral gas injection observed in SEPAC Spacelab-1 experiment (1985)

Yanagisawa, M. ; Taylor, W. W. L. ; Obayashi, T. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: An enhancement of plasma density observed during a neutral gas injection in Space Experiments with Particle Accelerators by the Space Shuttle/Spacelab-1 is presented. When a plume of nitrogen gas was injected from the orbiter into space, a large amount of plasma was detected by an onboard plasma probe. The observed density often increased beyond the background plasma density and was strongly dependent on the attitude of the orbiter with respect to the velocity vector. This effect has been explained by a collisional interaction between the injected gas molecules and the ionospheric ions relatively drifting at the orbital speed.

Keywords: PLASMA PHYSICS

Type: Journal of Geomagnetism and Geoelectricity (ISSN 0022-1392); 37; 9, 19

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2

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Neutralization of beam-emitting spacecraft by plasma injection (1987)

Sasaki, S. ; Kawashima, N. ; Roberts, W. T. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: An impulsive plasma injection has been used to study charge neutralization of the Space Shuttle Orbiter while it was emitting an electron beam into space. This investigation was performed by Space Experiments with Particle Accelerators on Spacelab-1. A plasma consisting of 10 to the 19th argon ion-electron pairs was injected into space for 1 ms while an electron beam was also being emitted into space. The electron beam energy and current were as high as 5 keV and 300 mA. While the orbiter potential was positive before the plasma injection and began to decrease during the plasma injection, it was near zero for 6 to 20 ms after the plasma injection. The recovery time to the initial level of charging varied from 10 to 100 ms. In a laboratory test in a large space chamber using the same flight hardware, the neutralization time was 8-17 ms and the recovery time was 11-20 ms. The long duration of the neutralization effect in space can be explained by a model of diffusion of the cold plasma which is produced near the Orbiter by charge exchange between the neutral argon atoms and the energetic argon ions during plasma injection.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: Journal of Spacecraft and Rockets (ISSN 0022-4650); 24; 227-231

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3

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Gas ionization induced by a high speed plasma injection in space (1986)

Sasaki, S. ; Reasoner, D. L. ; Obayashi, T. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: Gas ionization induced by a fast plasma injection has been observed with the Space Experiments with Particle Accelerators (SEPAC) Experiment on Spacelab-1. When an impulsive high-density plasma was injected from the orbiter, waves near the lower-hybrid frequency were enhanced, and the surrounding gas drifting with the orbiter was ionized for several tens of milliseconds after the plasma injection. The long-duration gas ionization was observed only when the plasma flux incoming to the orbiter cargo bay and the orbital velocity perpendicular to the magnetic field were relatively large. This effect has been explained by the concept of critical velocity ionization (CVI) for the gas drifting with the orbiter, although the gas velocity perpendicular to the magnetic field was less than the Alfven critical velocity.

Keywords: PLASMA PHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 13; 434-437

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4

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Working group report on beam plasmas, electronic propulsion, and active experiments using beams (1986)

Winkler, J. R. ; Sasaki, S. ; Szuszczewicz, E. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: The JPL Workshop addressed a number of plasma issues that bear on advanced spaceborne technology for the years 2000 and beyond. Primary interest was on the permanently manned space station with a focus on identifying environmentally related issues requiring early clarification by spaceborne plasma experimentation. The Beams Working Group focused on environmentally related threats that platform operations could have on the conduct and integrity of spaceborne beam experiments and vice versa. Considerations were to include particle beams and plumes. For purposes of definition it was agreed that the term particle beams described a directed flow of charged or neutral particles allowing single-particle trajectories to represent the characteristics of the beam and its propagation. On the other hand, the word plume was adopted to describe a multidimensional flow (or expansion) of a plasma or neutral gas cloud. Within the framework of these definitions, experiment categories included: (1) Neutral- and charged-particle beam propagation, with considerations extending to high powers and currents. (2) Evolution and dynamics of naturally occurring and man-made plasma and neutral gas clouds. In both categories, scientific interest focused on interactions with the ambient geoplasma and the evolution of particle densities, energy distribution functions, waves, and fields.

Keywords: PLASMA PHYSICS

Type: Space Technology Plasma Issues in 2001; p 16-22

Format: application/pdf

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Overview

5

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Ignition of beam plasma discharge in the electron beam experiment in space (1985)

Kuriki, K. ; Kawashima, N. ; Roberts, W. T. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: An ignition of beam plasma discharge (BPD) in space was observed in a neutral gas-electron beam interaction experiment by Space Shuttle/Spacelab-1 in 1983. An electron beam of 8 kV 100 mA was injected into a high dense nitrogen gas cloud of 10 to the 23rd molecules which was released during 100 msec from the Orbiter. The appearance of the beam and its surroundings observed by a low-light-level TV camera showed a local ignition of the beam plasma discharge in the gas cloud. The enhanced plasma production, generation of auroral emission, and associated wave emission were also detected by onboard diagnostic instruments.

Keywords: PLASMA PHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 12; 647-650

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6

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Space experiments with particle accelerators (1984)

Obayashi, T. ; Nagatomo, M. ; Kawashima, N. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: Electron and plasma beams and neutral gas plumes were injected into the space environment by instruuments on Spacelab 1, and various diagnostic measurements including television camera observations were performed. The results yield information on vehicle charging and neutralization, beam-plasma interactions, and ionization enhancement by neutral beam injection.

Keywords: NUCLEAR AND HIGH-ENERGY PHYSICS

Type: Science (ISSN 0036-8075); 225; 195

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7

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Initial results of SEPAC scientific achievement (1985)

Nagatomo, M. ; Sasaki, S. ; Obayashi, T. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: Electron beam injection of 5 keV, 300 mA (1.5 kW) and MPD arcjet plasma injection of 2 kJ/shot were successfully performed together with various kinds of diagnostic instruments including a high sensitivity TV camera observation in the Spacelab 1. Major scientific results obtained are studies of: (1) vehicle charge-up due to the electron beam emission and its neutralization by the MPD arcjet plasma; (2) beam-plasma interaction including the plasma wave excitation; (3) beam-atmosphere interaction such as the verification of critical velocity ionization effect; and (4) anomalous enhancement of ionization associated with a neutral gas injection into space.

Keywords: NUCLEAR AND HIGH-ENERGY PHYSICS

Type: Earth-Oriented Applications of Space Technology (ISSN 0277-4488); 5; 1-2,

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8

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Wave-particle interactions induced by SEPAC on Spacelab 1 Wave observations (1985)

Obayashi, T. ; Yanagisawa, M. ; Kawashima, N. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: Space experiments with particle accelerators (SEPAC) flew on Spacelab 1 in November and December 1983. SEPAC included an accelerator which emitted electrons into the ionospheric plasma with energies up to 5 keV and currents up to 300 mA. The SEPAC equipment also included an energetic plasma generator, a neutral gas generator, and an extensive array of diagnostics. The diagnostics included plasma wave detectors, and energetic electron analyzer, a photometer, a high sensitivity television camera, a Langmuir probe and a pressure gage. Twenty-eight experiments were performed during the mission to investigate beam-plasma interactions, electron beam dynamics, plasma beam propagation, and vehicle charging. The wave-particle interactions were monitored by the plasma wave instrumentation, by the energetic electron detector and by the optical detectors. All show evidence of wave-particle interactions, which are described in this paper.

Keywords: PLASMA PHYSICS

Type: Radio Science (ISSN 0048-6604); 20; 486-498

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9

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Degassing history and evolution of volcanic activity of terrestrial planets based on radiogenic noble gas degassing models (1994)

Sasaki, S. ; Tajika, E.

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Publication Date: 2019-01-25

Description: Current abundances of radiogenic noble gases (4-He, 40-Ar, 129-Xe) in the planetary atmospheres provide valuable information on planetary evolution through their degassing histories. Of these, 40-Ar (from 40-K with half life 1.25 Ga) can be used to envisage long-term degassing from their interior. Present amounts of 36 and 40-Ar should have information on timing and degree of degassing from the interior. On the other hand, 129-Xe (from 129-I with half life 17 Ma) is used in discussing early planetary degassing. Because life time of helium in the atmosphere is short, atmospheric 4-He (from 235-U, 238-U, 232-Th) data might be used only for current degassing. The relative abundance of 40-Ar in the Cytherean atmosphere is 0.26 of that in the Earth's atmosphere. We have executed numerical calculation of a 40-Ar degassing model along with mantle evolution and melt migration. Our result shows that the average magma production rate on Venus is about 5 (km(exp 3)/yr). Duration of plate motion on Venus, if existed, would be less than several hundred million years.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Lunar and Planetary Inst., Conference on Deep Earth and Planetary Volatiles; p 42

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10

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Heating during solar nebula formation and Mg isotopic fractionation in precursor grains of CAIs and chondrules (1994)

Nagahara, H. ; Sasaki, S. ; Nakagawa, Y. ; [et al.]

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Publication Date: 2019-01-25

Description: In some Ca-Al-rich inclusion (CAI) grains, mass-dependent isotopic fractionations of Mg, Si, and O are observed and large Mg isotopic fractionation is interpreted to have been produced by cosmochemical processes such as evaporation and condensation. Mass-dependent Mg isotopic fractionation was found in olivine chondrules of Allende meteorites. Presented is an approximate formula for the temperature of the solar nebula that depends on heliocentric distance and the initial gas distribution. Shock heating during solar nebula formation can cause evaporative fractionation within interstellar grains involved in a gas at the inner zone (a less than 3 AU) of the disk. Alternatively collision of late-accreting gas blobs might cause similar heating if Sigma(sub s) and Sigma are large enough. Since the grain size is small, the solid/gas mass ratio is low and solar (low P(sub O2)), and the ambient gas pressure is low, this heating event could not produce chondrules themselves. Chondrule formation should proceed around the disk midplane after dust grains would grow and sediment to increase the solid/gas ratio there. The heating source there is uncertain, but transient rapid accretion through the disk could release a large amount of heat, which would be observed as FU Orionis events.

Keywords: SOLAR PHYSICS

Type: Lunar and Planetary Inst., Papers Presented to the Conference on Chondrules and the Protoplanetary Disk; p 35-36

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