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NASA/JSC orbital debris study: Debris model (1985)

Kessler, D. J. ; Su, S. Y. ; Roberts, J. B.

In: CASI

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Publication Date: 2006-02-14

Description: The possibility of the creation of a debris belt around the Earth is discussed. A computer model which describes the near-Earth space environment created by the existing spacecraft and fragments from the associated spent launching vehicle attachments and explosions was developed. The present debris model adopts the mathematical formulations published in a paper by Kessler. Thus, the model uses more rigorous mathematical formulation in calculating the collision rate between two orbiting objects than the one published by Kessler and Cour-Palais (1978). The present model contains many general but detailed analyses on the debris environment such as manipulating and/or sorting the existing debris objects, the physical dimensions of the objects and extrapolating the number density describing to include the unobservable small objects.

Keywords: ASTRONAUTICS (GENERAL)

Type: Orbital Debris; p 69-77

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2

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Average plasma environment at geosynchronous orbit (1979)

Su, S. Y. ; Konradi, A.

In: CASI

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Publication Date: 2006-01-12

Description: The average plasma environment at geosynchronous orbit (GSO) is derived from a whole year's worth of plasma data obtained by the UCSD electrostatic electrometer on board ATS 5. The result is primarily intended for use as a general reference for engineers designing a large spacecraft to be flown at GSO. A simple mathematical formula using a 3rd order polynomial is found to be adequate for representing the yearly averaged particle energy spectrum from 70 to 41,000 eV under different geomagnetic conditions. Furthermore, correlation analyses with the geomagnetic planetary index Kp and with the auroral electrojet index AE were carried out in the hope that the ground observations of the geomagnetic field variations can be used to predict the plasma variations in space. Unfortunately, the results indicate that such forecasting is not feasible by use of these two popular geomagnetic parameters alone.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA. Lewis Res. Center Spacecraft Charging Technol., 1978; p 23-37

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3

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Magnetic field depression at the earth's surface calculated from the relationship between the size of the magnetosphere and the Dst values (1975)

Konradi, A. ; Su, S.-Y.

In: Other Sources

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Publication Date: 2011-08-16

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research; 80; Jan. 1

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4

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On correlation analysis of the Explorer 12 substorm protons with some geophysical parameters (1974)

Konradi, A. ; Su, S.-Y.

In: Other Sources

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Publication Date: 2011-08-16

Description: The intensity of Explorer-12 substorm protons with energies above 140 keV observed in the far outer belt are compared with several commonly used geomagnetic indices. The parameters considered in the correlation include Davis and Sugiura's (1966) AE index that provides a measure of the magnitude of substorm intensity, the asymmetric ring-current index R(DS) that is obtained from nine low-latitude stations, Sugiura and Hendricks' (1967) Dst index representing the symmetric component of the ring current, and the planetary magnetic index Kp.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research; 79; Jan. 1

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5

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On propagation direction of ring current proton ULF waves observed by ATS 6 at 6.6 R sub E (1977)

Konradi, A. ; Fritz, T. A. ; Su, S.-Y.

In: Other Sources

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Publication Date: 2011-08-17

Description: From June 11 to September 16, 1974, the NOAA low-energy proton detector on board the ATS 6 satellite observed 71 cases of ultralow-frequency oscillations of proton flux intensities. The oscillation periods varied from 40 s to 6 min, and the events were observed most frequently during moderate geomagnetic conditions. The flux oscillations occurred at various local times, yet almost two thirds of the events were detected in the near-dusk region of the magnetosphere. For a majority of the events in this set a substantial phase shift in flux oscillation was detected between different energy channels and/or between two oppositely oriented detector telescopes. The phase shift is mainly due to the finite gyroradius effect of the protons gyrating in the geomagnetic field. By examining this finite gyroradius effect on the perturbed particle distribution function associated with the wave in a nonuniform magnetic field, the propagation direction of the wave from particle observations made by a single spacecraft is determined

Keywords: SPACE RADIATION

Type: Journal of Geophysical Research; 82; May 1

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6

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Time-average fluxes of heavy ions at the geostationary orbit (1980)

Fritz, T. A. ; Su, S.-Y. ; Konradi, A.

In: Other Sources

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Publication Date: 2011-08-18

Description: Measurements of average proton, helium, carbon, and oxygen fluxes at 6.6 earth radii are reported. The data represent averages obtained on ATS 6 between June 15 and Oct. 3, 1974. The energy range covered was 0.36-1.1 MeV for protons and approximately 1-4 MeV for the heavier ions. The results indicate that above about 1 MeV the heavier ion fluxes dominate over the proton flux on the energy/ion scale. Using two different spectral dependencies to fit the data, the carbon to oxygen concentration ratio for energies above 1 MeV was found to be 0.43 for the power law spectrum and 0.44 for the exponential spectrum. Thus in either case the abundance ratio is consistent with the solar origin of the particles. Similarly, the helium to oxygen concentration ratio is found to be 0.17 for the power law spectrum and 0.28 for the exponential spectrum. This is inconsistent with the solar wind ratio, which is about 10. The results quoted above are based on a very small portion of the distribution function above 1 MeV.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research; 85; Oct. 1

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7

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Preserved signatures of ion flux modulations observed by ATS 6 (1981)

Konradi, A. ; Fritz, T. A. ; Su, S.-Y.

In: Other Sources

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Publication Date: 2011-08-18

Description: The considered investigation is concerned with a detailed analysis of the event of August 13, 1974. The considered day was a geomagnetically quiet day, and ATS 6 was stationed at 94 deg W longitude. On the basis of the conducted analysis it is found that the observed flux oscillations may be a fossil signature of flux modulations which have occurred in ions at an earlier time and at a region away from the spot of observation. In conclusion, it is pointed out that the August 13, 1974, and the January 23, 1975, events of proton flux oscillations observed by ATS 6 are of great importance. They reveal another unique capability of the drifting particles for preserving small modulation signatures imposed upon them during earlier wave-particle interactions. At the present, no conclusions are drawn as to what kind of the wave-particle interaction process was responsible for the observation.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research; 86; Dec. 1

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8

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Repeated sharp flux dropouts observed at 6.6 earth radii during a geomagnetic storm (1976)

Konradi, A. ; Fritz, T. A. ; Su, S.-Y.

In: Other Sources

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Publication Date: 2011-08-16

Description: A number of repeated rapid flux dropouts have been observed at 6.6 earth radii by the low-energy proton detectors on board the ATS 6 satellite during the July 4-6, 1974, geomagnetic storm period. These rapid flux changes are caused by the fact that the outer boundary of the trapped radiation region moves back and forth past the satellite. Although a tilting field line configuration can cause the boundary to pass the satellite, as has frequently been reported in the literature, the boundary is shown to be distorted by a large surface wave traveling eastward around the earth. The maximum velocity of the wave was observed to be about 40 km/s.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research; 81; Jan. 1

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9

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Contribution of explosion and future collision fragments to the orbital debris environment (1985)

Kessler, D. J. ; Su, S.-Y.

In: Other Sources

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Publication Date: 2011-08-19

Description: The time evolution of the near-earth man-made orbital debris environment modeled by numerical simulation is presented in this paper. The model starts with a data base of orbital debris objects which are tracked by the NORAD ground radar system. The current untrackable small objects are assumed to result from explosions and are predicted from data collected from a ground explosion experiment. Future collisions between earth orbiting objects are handled by the Monte Carlo method to simulate the range of collision possibilities that may occur in the real world. The collision fragmentation process between debris objects is calculated using an empirical formula derived from a laboratory spacecraft impact experiment to obtain the number versus size distribution of the newly generated debris population. The evolution of the future space debris environment is compared with the natural meteoroid background for the relative spacecraft penetration hazard.

Keywords: ASTRONAUTICS (GENERAL)

Type: Advances in Space Research (ISSN 0273-1177); 5; 2, 19

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10

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Observations of ULF oscillations in the ion fluxes at small pitch angles with ATS 6 (1980)

Su, S.-Y. ; Fritz, T. A. ; Mcpherron, R. L. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: The ultra-low-frequency modulation of ion flux densities at small pitch angles observed by ATS 6 is examined, with particular attention given to a detailed analysis of a representative event. ULF modulation events with maximum modulation at small pitch angles were identified 14 times during the first eight months of operation of the NOAA low-energy particle detector on ATS 6. For the event of October 23, 1974, maximum flux modulation, with a maximum/minimum intensity ratio of 3.7, was observed in the 100 to 150 keV detector at an angle of 32 deg to the ambient field. Spectral analysis of magnetic field data reveals a right elliptically polarized magnetic perturbation with a 96-sec period and a 5-gamma rms amplitude, propagating in the dipole meridian at an angle of about 15 deg to the ambient field and the dipole axis. Proton flux modulation is found to lag the field by up to 180 deg for the lowest-energy channel. Observations are compared with the drift wave, MHD slow wave, and bounce resonant interaction associated with transverse wave models, and it is found that none of the wave models can adequately account for all of the correlated particle and field oscillations.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research; 85; Feb. 1

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