J.L. Green scite author profile

J.L. Green

5Publications

88Citation Statements Received

84Citation Statements Given

How they've been cited

200

How they cite others

120

Affiliations

Goddard Space Flight Center

Publications

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Active Wave Experiments in Space Plasmas: The Z Mode

Benson

Webb

Green

et al.

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Abstract. The term Z mode is space physics notation for the low-frequency branch of the extraordinary (X) mode. It is an internal, or trapped, mode of the plasma confined in frequency between the cutoff frequency fz and the upper-hybrid frequency f uh which is related to the electron plasma frequency fpe and the electron cyclotron frequency fce by the expression f; fz is a function of fpe and fce. These characteristic frequencies are directly related to the electron number density Ne and the magnetic field strength |B|, i.e., fpe (kHz) 2 ≈ 80.6Ne(cm −3 ) and fce (kHz) 2 ≈ 0.028|B|(nT). The Z mode is further classified as slow or fast depending on whether the phase velocity is lower or higher than the speed of light in vacuum. The Z mode provides a link between the short wavelength λ (large wave number k = 2π/λ ) electrostatic (es) domain and the long λ (small k) electromagnetic (em) domain. An understanding of the generation, propagation and reception of Z-mode waves in space plasma leads to fundamental information on wave/particle interactions, Ne, and field-aligned Ne irregularities (FAI) in both active and passive wave experiments. Here we review Z-mode observations and their interpretations from both radio sounders on rockets and satellites and from plasma-wave receivers on satellites. The emphasis will be on the scattering and ducting of sounder-generated Z-mode waves by FAI and on the passive reception of Z-mode waves generated by natural processes such as Cherenkov and cyclotron emission. The diagnostic applications of the observations to understanding ionospheric and magnetospheric plasma processes and structures benefit from the complementary nature of passive and active plasma-wave experiments.

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Magnetospheric Active Wave Measurements

Song

Reinisch

Huang

et al. 2005

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Untitled

et al. 2000

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Observations of magnetospheric plasmas by the radio plasma imager (RPI) on the image mission

Fung

Benson

Green

et al. 2002

Advances in Space Research

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Advances in magnetospheric radio wave analysis and tomography

Cummer

Green

Reinisch

et al. 2003

Advances in Space Research

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J.L. Green

Active Wave Experiments in Space Plasmas: The Z Mode

Magnetospheric Active Wave Measurements

Untitled

Observations of magnetospheric plasmas by the radio plasma imager (RPI) on the image mission

Advances in magnetospheric radio wave analysis and tomography

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