T. Wedde scite author profile

By using a new multiposition experimental procedure the incoherent scatter radar facility of Chatanika, Alaska, has been used to obtain detailed latitudinal structure of ion velocities and electric fields in the afternoon and midnight sectors during a period of moderate magnetic disturbance. In particular, the latitudinal and local time structure of the Harang discontinuity has been investigated. In agreement with other observations it is found that the convection flow direction changes from westward through south to eastward over a fairly wide local time range (1–2 hours), the highest latitudes displaying the widest region. The Harang discontinuity encounter is accompanied by an abrupt increase in electron precipitation, the most intense part being located slightly east of the center of the discontinuity. It is suggested that this injection is due to processes closely connected with the discontinuity region itself, rather than to a substorm‐related energization.

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Scattering cross sections for 40 eV to 1 keV electrons colliding elastically with nitrogen and oxygen

Wedde

Strand

1974

J. Phys. B: At. Mol. Phys.

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Effects of the auroral electrojet on the scattering and absorption of fast electrons in the upper atmosphere

Wedde

1971

Journal of Atmospheric and Terrestrial Physics

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Particle and auroral observations from the ESRO I/AURORAE satellite

Deehr¹,

Egeland²,

Aarsnes

et al. 1973

Journal of Atmospheric and Terrestrial Physics

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High latitude electron and proton precipitation at different local times and magnetic activity

Wedde

Skovli

Amundsen

et al. 1973

Journal of Atmospheric and Terrestrial Physics

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T. Wedde

Chatanika observations of the latitudinal structure of electric fields and particle precipitation on November 21, 1975

Scattering cross sections for 40 eV to 1 keV electrons colliding elastically with nitrogen and oxygen

Effects of the auroral electrojet on the scattering and absorption of fast electrons in the upper atmosphere

Particle and auroral observations from the ESRO I/AURORAE satellite

High latitude electron and proton precipitation at different local times and magnetic activity

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