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VLF wave-particle interaction experiments by EXOS-B/Siple station transmissions (1984)

Inan, U. S. ; Hashimoto, K. ; Bell, T. F. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: The relationship between ground station signals and electron pitch angle distribution at L = 4 is reviewed, and signal intensity is discussed. There are two types of relationships between signals and electron distribution: (1) intensification of the signal by a distribution with a high pitch angle anisotropy of pancake type; and (2) triggering of emissions associated with transmissions by a high flux of electrons with low pitch angle anisotropy. The electric field intensity of ground signals is relatively low, which is consistent with those observed by IMP-6 and by a rocket.

Keywords: COMMUNICATIONS AND RADAR

Type: ESA Achievements of the Intern. Magnetospheric Study (IMS); p 529-532

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Lightning-induced effects on VLF/LF radio propagation (1993)

Rodriguez, J. V. ; Inan, U. S.

In: CASI

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Publication Date: 2019-06-28

Description: In recent years, at least two different ways in which energy from lightning discharges couples into the lower ionosphere and the radiation belts have come to the fore. In this paper, we briefly review these recent results especially from the point of view of their effects on VLF/LF radio propagation in the earth-ionosphere wave guide. We separately discuss two different mechanisms of coupling, namely lightning-induced electron precipitation, and lightning-induced heating and ionization of the lower ionosphere. We also discuss a planned active VLF wave-injection experiment designed to investigate ionospheric heating by VLF waves under controlled conditions and to generate ELF waves by modulated VLF heating.

Keywords: COMMUNICATIONS AND RADAR

Type: AGARD, ELF(VLF)LF Radio Propagation and Systems Aspects; 10 p

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3

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Spectral broadening of VLF transmitter signals observed on DE 1 - A quasi-electrostatic phenomenon? (1985)

Bell, T. F. ; Inan, U. S.

In: Other Sources

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Publication Date: 2019-06-28

Description: Spectrally broadened VLF transmitter signals are observed on the DE 1 satellite using alternatively both electric and magnetic field sensors. It is found that at times when the electric field component undergoes significant bandwidth expansion (up to about 110 Hz) the magnetic field component has a bandwidth of less than 10 Hz. The results support the theory that the off-carrier components are quasi-electrostatic in nature. Measurement of the absolute E and B field magnitudes of the broadened signals are used to determine the wave Poynting vector. It is found that the observed power levels can be understood without invoking any strong amplification process that operates in conjunction with the spectral broadening. The implications of this finding in distinguishing among the various possible mechanisms for spectral broadening are discussed.

Keywords: COMMUNICATIONS AND RADAR

Type: Journal of Geophysical Research (ISSN 0148-0227); 90; 1771-177

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4

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Measurements of Siple transmitter signals on the DE 1 satellite - Wave normal direction and antenna effective length (1986)

Inan, U. S. ; Sonwalker, V. S.

In: Other Sources

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Publication Date: 2019-07-12

Description: A new experimental technique is developed to simultaneously measure the wave propagation direction and the effective length of a small (L value much smaller than wavelength) electric dipole antenna on a spin-stabilized satellite in the magnetosphere. The technique relies on the near simultaneous measurement of single components of the electric and magnetic fields of a coherent VLF signal injected into the medium from a ground-based source. The spin fading characteristics of the signal received by the electric dipole and the magnetic loop antenna permit the measurement of the wave normal direction assuming whistler-mode propagation. In-situ and remote measurements of the local cold plasma density are used to determine the refractive index. The wave electric field is then inferred from the wave magnetic field as measured on the loop antenna, the refractive index and the direction of propagation. Comparing this electric field with the measured voltage across the dipole antenna leads to the determination of the effective length of the receiving electric dipole. The technique is applied to data from the Dynamics Explorer 1 satellite observations of whistler mode signals injected into the magnetosphere from the Siple, Antarctica, VLF transmitter. In one case, with the measured background cold plasma density being 15 el/cu cm, the effective length of the 200 m-long electric dipole antenna is found to be 222 + or - 56 m, i.e., about twice the conventional value.

Keywords: COMMUNICATIONS AND RADAR

Type: Journal of Geophysical Research (ISSN 0148-0227); 91; 154-164

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