Observation of O+ (P-4-D-4(0)) lines in electron aurora over Svalbard

This work reports on observations of O+ lines in aurora over Svalbard, Norway. The Spectrographic Imaging Facility measures auroral spectra in three wavelength intervals(H-beta, N-2(+) 1N(0,2) and N-2(+) 1N(1,3)). The oxygen ion P-4-D-4(0) multiplet (4639-4696 Angstrom) is blended with the N-2(+) 1N...

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Bibliographic Details
Main Authors: Ivchenko, N, Rees, MH, Lanchester, BS, Lummerzheim, D, Galand, M, Throp, K, Furniss, I
Format: Article in Journal/Newspaper
Language:English
Published: EUROPEAN GEOSCIENCES UNION 2004
Subjects:
Meteorology and atmospheric dynamics
Airglow and aurora
Ionosphere
Particle precipitation
Field-aligned currents
Optical aurora
Spectra
Oxygen
Radar
Impact
Excitation
Emissions
Scatter
N2
Norway
Svalbard
Online Access:http://discovery.ucl.ac.uk/35955/
Description
Summary:This work reports on observations of O+ lines in aurora over Svalbard, Norway. The Spectrographic Imaging Facility measures auroral spectra in three wavelength intervals(H-beta, N-2(+) 1N(0,2) and N-2(+) 1N(1,3)). The oxygen ion P-4-D-4(0) multiplet (4639-4696 Angstrom) is blended with the N-2(+) 1N(1,3) band. It is found that in electron aurora, the brightness of this multiplet, is on average, about 0.1 of the N-2(+) 1N(0,2) total brightness. A joint optical and incoherent scatter radar study of an electron aurora event shows that the ratio is enhanced when the ionisation in the upper E-layer (140-190 km) is significant with respect to the E-layer peak below 130 km. Rayed arcs were observed on one such occasion, whereas on other occasions the auroral intensity was below the threshold of the imager. A one-dimensional electron transport model is used to estimate the cross section for production of the multiplet in electron collisions, yielding 0.18 x 10(-18) cm(2).

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