Add to ORKGThe possible use of Chamber A for the replication or simulation of space plasma physics processes which occur in the geosynchronous Earth orbit (GEO) environment is considered. It is shown that replication is not possible and that scaling of the environmental conditions is required for study of the important instability processes. Rules for such experimental scaling are given. At the present time, it does not appear technologically feasible to satisfy these requirements in Chamber A. It is, however, possible to study and qualitatively evaluate the problem of vehicle charging at GEO. In particular, Chamber A is sufficiently large that a complete operational spacecraft could be irradiated by beams and charged to high potentials. Such testing ...
The problem of assessing hazards to geosynchronous satellite systems from geomagnetic substorm encou...
We present results from modifications to test facilities equipped with a plasma source capable of pr...
Plasma injection experiments in space are being ordered according to five aspects: (1) Diagnostics o...
Cases where the charged-particle environment acts on the spacecraft (e.g., spacecraft charging pheno...
Large, permanently-manned space platforms can provide exciting opportunities for discoveries in basi...
Attempts to gain an understanding of spacecraft plasma dynamics via experimental investigation of th...
The objectives of this review are to articulate geospace, heliospheric, and astrophysical plasma phy...
Proposals for environment modification experiments in space to determine dynamics of field, particle...
Space plasma science, especially plasma experiments in space, is discussed. Computational simulation...
Although the role of the environment in generating spacecraft potential variations at geosynchronous...
The objectives of this review are to articulate geospace, heliospheric, and astrophysical plasma phy...
Any satellite whose orbit passes through the terrestrial magnetosphere will encounter several plasma...
A simulation facility was established at the NASA-Lewis Research Center to determine the response of...
A study supported by the European Space Agency (ESA), in the context of its General Studies Programm...
A study supported by the European Space Agency (ESA), in the context of its General Studies Program...
The problem of assessing hazards to geosynchronous satellite systems from geomagnetic substorm encou...
We present results from modifications to test facilities equipped with a plasma source capable of pr...
Plasma injection experiments in space are being ordered according to five aspects: (1) Diagnostics o...
Cases where the charged-particle environment acts on the spacecraft (e.g., spacecraft charging pheno...
Large, permanently-manned space platforms can provide exciting opportunities for discoveries in basi...
Attempts to gain an understanding of spacecraft plasma dynamics via experimental investigation of th...
The objectives of this review are to articulate geospace, heliospheric, and astrophysical plasma phy...
Proposals for environment modification experiments in space to determine dynamics of field, particle...
Space plasma science, especially plasma experiments in space, is discussed. Computational simulation...
Although the role of the environment in generating spacecraft potential variations at geosynchronous...
The objectives of this review are to articulate geospace, heliospheric, and astrophysical plasma phy...
Any satellite whose orbit passes through the terrestrial magnetosphere will encounter several plasma...
A simulation facility was established at the NASA-Lewis Research Center to determine the response of...
A study supported by the European Space Agency (ESA), in the context of its General Studies Programm...
A study supported by the European Space Agency (ESA), in the context of its General Studies Program...
The problem of assessing hazards to geosynchronous satellite systems from geomagnetic substorm encou...
We present results from modifications to test facilities equipped with a plasma source capable of pr...
Plasma injection experiments in space are being ordered according to five aspects: (1) Diagnostics o...