Journal ArticleDOI
The impedance of a dipole antenna in the ionosphere: 1. Experimental study
TLDR
The EIDI I experiment was launched in conditions where the plasma was expected to be nearly isotropic (operating frequencies 4.48 and 6.09 MHz, f0F2 ⋍ 9MHz, fH ⋈ 1 MHz).Abstract:
The impedance of a short electric dipole antenna has been measured from rockets in the ionosphere. The EIDI I experiment was launched in conditions where the plasma was expected to be nearly isotropic (operating frequencies 4.48 and 6.09 MHz, f0F2 ⋍ 9 MHz, fH ⋍ 1 MHz). It was designed to detect and measure or to eliminate most of the unwanted effects which complicated the data reduction of previous experiments: outgassing, telemetry radiation, etc. The number of parameters measured simultaneously on board (impedances with variable bias and RF excitation level, resonance frequencies, Te, dc current drawn by the antennas, vehicle potential) and from the ground or an overhead satellite was large enough to provide numerous cross checks and to determine the sheath dimensions.
The impedance is very weakly spin-modulated over most of the flight; the collision frequency is very low (v/ω ⋍ 10−5) unlike some of the previous experiments where collision losses were dominant. The measured values of the impedance are given as a function of X=f2p/f2 where the other parameters are known.read more
Citations
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Journal ArticleDOI
Antenna radiation patterns in the whistler wave regime measured in a large laboratory plasma
TL;DR: In this article, the relative wave amplitude with a small receiver antenna scanned around the exciter in a large uniform collisionless magnetized laboratory plasma in the whistler wave regime was measured.
Journal ArticleDOI
The properties of antennas in plasmas
TL;DR: In this paper, the authors studied the radiation and impedance properties of dipole and loop antennas in linear, anisotropic plasmas, including radiation patterns, wave interference, pulse propagation, reflections from boundaries and inhomogeneous media effects.
Journal ArticleDOI
The impedance of a dipole antenna in the ionosphere: 2. Comparison with theory
TL;DR: The interpretation of the EIDI I experiment described in a companion paper is undertaken in this article, where a relatively complete calculation of the impedance including the effect of the temperature of the plasma by using the Vlasov equation and hydrodynamic equations, the structure of the sheath using a simple model of it, the collision frequency computed for an equilibrium plasma, and an estimation of various other small effects (wake, ionospheric gradient, motion of ions, etc).
Journal ArticleDOI
VLF Current Distribution and Input Impedance of an Arbitrarily Oriented Linear Antenna in a Cold Plasma
Tong He,Hui Ran Zeng,Kai Li +2 more
TL;DR: It is concluded that the optimal posture for a VLF space-borne linear antenna should be as parallel as possible to the direction of the geomagnetic field in order to achieve maximum antenna efficiency.
Journal ArticleDOI
A boundary‐value problem treatment of an electric dipole in a warm isotropic plasma using the multiple water bag model
TL;DR: In this paper, a boundary value problem for a dipole immersed in a warm isotropic plasma has been solved using the multiple water bag (MWB) and fluid models of the plasma.
References
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Journal ArticleDOI
Collision frequencies and energy transfer ions
Peter M. Banks,Peter M. Banks +1 more
TL;DR: In this article, an investigation has been made of ion collision frequencies and energy transfer for conditions of gaseous thermal nonequilibrium following the methods of a development devoted to electron collisions, the problems of ion-neutral and ion-ion elastic collisions have been considered under the assumption of separate Maxwellian velocity distributions.
Journal ArticleDOI
Collision frequencies and energy transfer electrons
Peter M. Banks,Peter M. Banks +1 more
TL;DR: In this paper, the problem of elastic collisions and energy transfer between gases which have separate Maxwellian velocity distributions was studied and an analysis was made of the collision frequency in terms of an average momentum transfer cross section which was defined for conditions of thermal nonequilibrium.
Journal ArticleDOI
The excitation of electroacoustic waves by antennas in the ionosphere
TL;DR: In this paper, the importance of the radiation of energy as an electron pressure (electroacoustic) wave generated near the antenna is discussed, and it is shown that the calculated power radiated by this mechanism yields results in good agreement with the observations.
Journal ArticleDOI
Rocket observation of two waves beating at the 3fH resonance
B. Higel,J. Bitoun,M. Petit +2 more
TL;DR: In this paper, the envelope and wave form of the resonance signals obtained by a rocket-borne RF sounder experiment have been recorded on the ground and the processing of the data concerning the third harmonic of the electron gyrofrequency (3fH) has led to the conclusion that it results from two waves having slightly different frequencies (typically, 1 kHz); the amplitudes of these waves depend on the antenna orientation.
Journal ArticleDOI
The impedance of a dipole antenna in the ionosphere: 2. Comparison with theory
TL;DR: The interpretation of the EIDI I experiment described in a companion paper is undertaken in this article, where a relatively complete calculation of the impedance including the effect of the temperature of the plasma by using the Vlasov equation and hydrodynamic equations, the structure of the sheath using a simple model of it, the collision frequency computed for an equilibrium plasma, and an estimation of various other small effects (wake, ionospheric gradient, motion of ions, etc).