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1

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Discovery of Jovian dust streams and interstellar grains by the Ulysses spacecraft (1993)

Balogh, A. ; Fechtig, H. ; Gruen, E. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: Within 1 AU from Jupiter, the dust detector aboard the Ulysses spacecraft during the flyby on February 8, 1992 recorded periodic bursts of submicron dust particles with durations ranging from several hours to two days and occurring at about monthly intervals. These particles arrived at Ulysses in collimate streams radiating from close to the line-of-sight direction to Jupiter, suggesting a Jovian origin for the periodic bursts. Ulysses also detected a flux of micron-sized dust particles moving in high-velocity retrograde orbits. These grains are identified here as being of interstellar origin.

Keywords: ASTROPHYSICS

Type: Nature (ISSN 0028-0836); 362; 6419; p. 428-430.

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2

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Orbital evolution of dust particles from comets and asteroids (1992)

Zook, H. A. ; Jackson, A. A.

In: Other Sources

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Publication Date: 2011-08-24

Description: Results are presented from a computer simulation in which dust grains of three different sizes were released at perihelion passage from each of (1) 15 main belt asteroids, (2) 15 short-period comets with perihelion greater than 1 AU, and (3) 5 such comets with perihelion less than 1 AU. The evolving-orbit calculations for each of the dust rains include the effects of solar and planetary gravity, radiation pressure, Poynting-Robertson drag, and solar wind drag. It is noted that when dust grains evolve to intersection with the earth's orbit, they retain orbital characteristics indicative of their origins.

Keywords: ASTRONOMY

Type: Icarus (ISSN 0019-1035); 97; 1, Ma

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3

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South-North and radial traverses through the interplanetary dust cloud (1998)

Gustafson, B. A. ; Fechtig, H. ; Mann, I. ; [et al.]

In: CASI

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Publication Date: 2004-12-03

Description: Identical in situ dust detectors are flown on board the Galileo and Ulysses spacecraft. They record impacts of micrometeoroids in the ecliptic plane at heliocentric distances from 0.7 to 5.4 AU and in a plane almost perpendicular to the ecliptic from -79 deg to +79 deg ecliptic latitude. The combination of both Ulysses and Galileo measurements yield information about the radial and latitudinal distributions of micron and sub-micron sized dust in the solar system. Two types of dust particles were found to dominate the dust flux in interplanetary space: (1) Interplanetary micrometeoroids covering a wide mass range from 10(exp -16) to 10(exp -6) gr are mostly recorded inside 3 AU, and at latitudes below 30 deg; and (2) Interstellar grains with masses between 10(exp -14) and 10(exp -12) gr have been positively identified outside 3 AU near the ecliptic plane and outside 1.8 AU at high ecliptic latitudes (〉 50 deg). Interstellar grains move on hyperbolic trajectories through the planetary system and constitute the dominant dust flux (1.5 x 10(exp -4)/ sq m sec) in the outer solar system and at high ecliptic latitudes. In order to compare and analyze the Galileo and Ulysses data sets, a new model is developed based on Divine's (1993) "Five populations of interplanetary meteoroids" model. By using this model, which takes into account the measured velocities and the effect of radiation pressure on small particles, we define four populations of meteoroids on elliptical orbits plus one population on hyperbolic orbits that all can fit the micrometeoroid flux observed by Galileo and Ulysses.

Keywords: Astronomy

Type: Exozodiacal Dust Workshop; 270-271; NASA/CP-1998-10155

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4

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Results of examination of the returned Surveyor 3 samples for particulate impacts (1972)

Zook, H. A. ; Mckay, D. S. ; Kessler, D. J. ; [et al.]

In: CASI

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Publication Date: 2005-11-30

Description: The television housing and a section of the strut of the radar altimeter and Doppler velocity sensor were examined optically and with a scanning electron microscope for particulate impacts. The white surface of the camera was discolored during the months the Surveyor 3 was on the moon; however, most of the craters must have occurred as a result of lunar dust sandblasted by the LM exhaust. The polished section of the strut exhibits contamination which appears brown and seems to be partially composed of crystals. Electron microscopic analysis of the strut section indicated no craters of hypervelocity impact origin, confirmed pitting density results of the optical scans, and indicated that material in the craters is of lunar origin. No meteorite impacts larger than 25 microns were detected on the tubing section.

Keywords: SPACE SCIENCES

Type: Analysis of Surveyor 3 Mater. and Phot. Returned by Apollo 12; p 158-167

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5

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In-situ detection of micron-sized dust particles in near-Earth space (1985)

Gruen, E. ; Zook, H. A.

In: CASI

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Publication Date: 2006-02-14

Description: In situ detectors for micron sized dust particles based on the measurement of impact ionization have been flown on several space missions (Pioneer 8/9, HEOS-2 and Helios 1/2). Previous measurements of small dust particles in near-Earth space are reviewed. An instrument is proposed for the measurement of micron sized meteoroids and space debris such as solid rocket exhaust particles from on board an Earth orbiting satellite. The instrument will measure the mass, speed, flight direction and electrical charge of individually impacting debris and meteoritic particles. It is a multicoincidence detector of 1000 sq cm sensitive area and measures particle masses in the range from 10 to the -14th power g to 10 to the -8th power g at an impact speed of 10 km/s. The instrument is lightweight (5 kg), consumes little power (4 watts), and requires a data sampling rate of about 100 bits per second.

Keywords: ASTRONAUTICS (GENERAL)

Type: Orbital Debris; p 233-246

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6

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Hypervelocity impacts on Skylab 4/Apollo windows (1985)

Schultz, R. A. ; Zook, H. A. ; Clanton, U. S.

In: CASI

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Publication Date: 2006-02-14

Description: The three largest Skylab 4 Command Module windows that were exposed for 84 days to space were optically scanned for impact features as small as 30 microns in diameter. This scanning effort which was carried out at an opptical magnification of 35x, detected features approximately three times smaller than were found in the original 5x scanning effort over the entire window surface. Some 289 features were recorded from the 35x scan for later detailed analyses. Sixty of the largest and most promising features were cored from the windows for SEM and energy-dispersive X-ray spectrometer (EDS) analysis. Twenty-six of the cores contained craters with glassy pits, and of these, fourteen were found to contain strikingly obvious liners coating the interior of the glassy pit. The six largest features cored from the windows do not have a central glassy pit which leaves their previously reported hypervelocity origin in some doubt. The remaining twenty-eight features that were cored from the windows show no clear evidence for a hypervelocity origin and evidence available at this time is insufficient to identify an origin in Earth orbit or as ground damage. The EDS analysis of six of the seven liners that were examined show detectable aluminum in the liner or lip of the glassy pit. The source of aluminum is most probably an Earth orbiting population of aluminum oxide spherules, exhaust from solid rocket motors.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: Orbital Debris; p 177-189

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7

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A preliminary report on the study of the impact sites and particles of the solar maximum satellite thermal blanket (1985)

Zook, H. A.

In: CASI

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Publication Date: 2006-02-14

Description: A preliminary study of the work on examination of the impact pits in, or penetrations through, the thermal blankets of the Solar Maximum Satellite is presented. The three largest pieces of the thermal blanket were optically scanned with a total surface area of about one half square meter. Over 1500 impact sites of all sizes, including 432 impacts larger than 40 microns in diameter, have been documented. Craters larger in diameter than about 100 microns found on the 75 micron thick Kapton first sheet of the main electronics box blanket are actually holes and constitute perforations through the blanket. A summary of the impact pit population that were found is given. The chemical study of these craters is only in the initial stages, with only about 250 chemical spectra of particles observed in or around impact pits or in the debris pattern being recorded.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA. Goddard Space Flight Center Proceedings of the SMRM Degradation Study Workshop; p 247-264

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8

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Analysis of micrometeorite material captured by the solar max satellite (1985)

Robinson, G. A. ; Zook, H. A. ; Schramm, L. S. ; [et al.]

In: CASI

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Publication Date: 2006-02-14

Description: A Solar Maximum satellite was retrieved and repaired after being subjected for four years and 55 days to impacts by micrometeorites and Earth-orbiting space debris. The chemical variety and physical condition of particles associated with two particular impact structures in the insulation blanket of the main electronics box are studied. A scanning electron microscope equipped with an energy dispersive X ray analyzer was used to determine morphology and chemistry of impacted areas and associated particles. Some details are discussed.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA. Goddard Space Flight Center Proceedings of the SMRM Degradation Study Workshop; p 243-244

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9

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Modeling (1985)

Zook, H. A.

In: CASI

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Publication Date: 2006-02-14

Description: A prediction of the future population of satellites, satellite fragments, and assorted spacecraft debris in Earth orbit can be reliably made only after three conditions are satisfied: (1) the size and spatial distributions of these Earth-orbiting objects are established at some present-day time; (2) the processes of orbital evolution, explosions, hypervelocity impact fragmentation, and atmospheric drag are understood; and (3) a reasonable traffic model for the future launch rate of Earth-orbiting objects is assumed. The theoretician will then take these three quantities as input data and will carry through the necessary mathematica and numerical analyses to project the present-day orbital population into the future.

Keywords: ASTRONAUTICS (GENERAL)

Type: Orbital Debris; p 421-423

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10

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Mass input into and output from the meteoritic complex (1985)

Zook, H. A. ; Fechtig, H. ; Giese, R. H. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: The consequences which arise from the mutual collisions occurring between interplanetary meteoroids, the Poynting-Robertson (PR) effect and the radiation pressure ejection of small meteoroids are examined. The size distribution and flux of micrometeoroids at 1 AU are derived and the dependence of spatial density on distance from the sun is established. The following conclusions are made: (1) the lifetimes of meteoroids with masses approximately greater than 0.00001 g are dominated by catastrophic collisions; (2) after bering crushed by collisions, 70 to 85 percent of this mass will be in the form of zodiacal light particles (with masses in the range of 10 to the -10th g to 10 to the -5th g) which will in part be transported by the PR effect towards the sun where they will evaporate; (3) the 15 to 30 percent of the collisional fragments which have masses approximately less than 10 to the -10th g will, for the most part, be injected into hyperbolic orbits by radiation pressure.

Keywords: ASTROPHYSICS

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