Radiation from an Antenna Entering the Martian Atmosphere
<p>The interaction between the ionized wake of a capsule entering the Martian atmosphere and the circularly polarized radiation emitted by an antenna located on the aft part of the capsule is theoretically investigated in this study. A simplified mathematical model of the atmosphere of Mar...
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| Format: | Others |
| Language: | en |
| Published: |
1969
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| Online Access: | https://thesis.library.caltech.edu/10105/1/Norgard_JD_1969.pdf Norgard, John Dennis (1969) Radiation from an Antenna Entering the Martian Atmosphere. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/pd64-rx94. https://resolver.caltech.edu/CaltechTHESIS:03242017-095341798 <https://resolver.caltech.edu/CaltechTHESIS:03242017-095341798> |
| Summary: | <p>The interaction between the ionized wake of a capsule entering
the Martian atmosphere and the circularly polarized radiation emitted
by an antenna located on the aft part of the capsule is theoretically
investigated in this study. A simplified mathematical model of the
atmosphere of Mars, the entry-trajectory of the capsule, and the flow
field surrounding the capsule are used in the analysis. The near wake
of the capsule is approximated by a cylindrically stratified plasma
shell consisting of n plasma regions. The plasma in each region is
assumed to be homogeneous, anisotropic, and conducting, and moving at
a uniform velocity relative to the antenna. The antenna is represented
by a turnstile antenna located off-axis λ<sub>o</sub>/4 above an infinite ground
plane and operates at the signal frequencies of 400 MHz and 2.295 GHz.</p>
<p>Integral expressions for the cylindrical components of the
field vectors are obtained by a rigorous relativistic formulation of
the problem, and are evaluated using the techniques of asymptotic
expansions to yield the radiation patterns of the antenna. Radiation
patterns for the special case of an on-axis antenna radiating through
a uniform, lossless, and isotropic plasma shell are presented and are
compared with the free space patterns.</p>
<p>The analysis shows that blackout occurs during the entry of
a capsule into the Martian atmosphere, Before and after blackout,
the radiation patterns of the antenna exhibit an on-axis null region
whose angular extent is proportional to the electron concentration of
the plasma. Also, sharp peaks which are attributed to leaky wave radiation,
are present in the null region of the patterns. For the non-null
region of the patterns, the values of the gain function of the antenna
oscillate about the free space values. As the electron concentration
of the plasma increases, the peaks in the radiation patterns become more
numerous and more sharply defined. The effects of the motion of the
plasma on the radiation emitted by the antenna are to shift the peaks
of the radiation patterns to smaller cone angles and to introduce more
peaks into the patterns.</p>
<p>For the low velocity case corresponding to an entry into the
Martian atmosphere, no serious motional or depolarization effects
occur, and communications with the capsule can be satisfactorily carried
out when the condition of blackout does not exist.</p> |
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