Electromagnetic Radiation in the Plasma Environment Around the Shuttle
- Author:
- Ferguson, Dale C.
- Published:
- Mar 1, 1995.
- Physical Description:
- 1 electronic document
- Additional Creators:
- Vayner, Boris V.
- Access Online:
- hdl.handle.net
- Restrictions on Access:
- Unclassified, Unlimited, Publicly available.
- Summary:
- As part of the SAMPIE (The Solar Array Module Plasma Interaction Experiment) program, the Langmuir probe (LP) was employed to measure plasma characteristics during the flight STS-62. The whole set of data could be divided into two parts: (1) low frequency sweeps to determine voltage-current characteristics and to find electron temperature and number density; (2) high frequency turbulence (HFT dwells) data caused by electromagnetic noise around the shuttle. The broadband noise was observed at frequencies 250-20,000 Hz. Measurements were performed in ram conditions; thus, it seems reasonable to believe that the influence of spacecraft operations on plasma parameters was minimized. The average spectrum of fluctuations is in agreement with theoretical predictions. According to purposes of SAMPIE, the samples of solar cells were placed in the cargo bay of the shuttle, and high negative bias voltages were applied to them to initiate arcing between these cells and surrounding plasma. The arcing onset was registered by special counters, and data were obtained that included the amplitudes of current, duration of each arc, and the number of arcs per one experiment. The LP data were analyzed for two different situations: with arcing and without arcing. Electrostatic noise spectra for both situations and theoretical explanation of the observed features are presented in this report.
- Collection:
- NASA Technical Reports Server (NTRS) Collection.
- Note:
- Document ID: 19950016699.
Accession ID: 95N23116.
NAS 1.15:106891.
E-9533.
NASA-TM-106891.
Chapman Conference on Measurement Techniques for Space Plasma; 3-7 Apr. 1995; Santa Fe, NM; United States. - Terms of Use and Reproduction:
- No Copyright.
- Access Online:
- hdl.handle.net
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