The effect of collisions in ionogram inversion
Language
English
Obiettivo Specifico
1.7. Osservazioni di alta e media atmosfera
3.9. Fisica della magnetosfera, ionosfera e meteorologia spaziale
Status
Published
JCR Journal
JCR Journal
Peer review journal
Yes
Journal
Issue/vol(year)
/51 (2013)
ISSN
0273-1177
Electronic ISSN
1879-1948
Publisher
Elsevier Science Limited
Pages (printed)
697-701
Date Issued
2013
Alternative Location
Abstract
The results of this paper demonstrate that the effect of collisions on the group refraction index is small, when the ordinary ray is considered. If, however, in order to improve the performance of a system for automatic interpretation of ionograms, the information contained in ordinary and extraordinary traces is combined, the effect of collisions between the electrons and neutral molecules should be taken into account for the extraordinary ray. The magnitude of these differences is generally very small and must be compared with the resolution in the virtual vertical height of the ionosonde, resolution which is typically of the order of few kilometers.
References
Budden, K. G. Radio waves in the ionosphere. Cambridge University Press, Cambridge, United Kingdom, 1961.
Davies, K., Ionospheric Radio, Peter Peregrinus Ltd. (ed.), London, UK, 1990.
Huang, X., Reinisch, B. W. Vertical Electron density profiles from the digisonde network. Adv. Space Res. 18 (6) , 121-(6)129, 1996.
Pezzopane, M., Scotto, C. Software for the automatic scaling of critical frequency foF2 and MUF(3000)F2 from ionograms applied at the Ionospheric Observatory of Gibilmanna. Ann. Geophysics, 47, 1783-1790, 2004.
Scotto, C. Electron Density profile calculation technique for Autoscala ionogram analysis. Adv. Space Res. 44, 756-766, 2009.
Scotto, C., Pezzopane, M. A software for automatic scaling of foF2 and MUF(3000)F2 from ionograms. Proceedings of URSI 2002, Maastricht, 17-24 august, 2002 (on CD).
Scotto, C., Pezzopane, M. and Zolesi, B. Estimating the vertical electron density profile from an ionogram: On the passage from true to virtual heights via the target function method. Radio Scie.Vol. 47, RS1007, 6 PP., 2012, doi:10.1029/2011RS004833.
Shinn, D. H. and Whale H. A. Group velocities and group heights from magnetoionic theory. J. Atmos. Terr. Phys. 2, 85-105, 1952.
Titheridge, J. E. Ionogram analysis with the generalised program POLAN. World Data Center A for Solar-Terrestrial Physics, Boulder, CO (USA), Technical Report PB-89-152482/XAB UAG-93, 204 pp., 1985.
Davies, K., Ionospheric Radio, Peter Peregrinus Ltd. (ed.), London, UK, 1990.
Huang, X., Reinisch, B. W. Vertical Electron density profiles from the digisonde network. Adv. Space Res. 18 (6) , 121-(6)129, 1996.
Pezzopane, M., Scotto, C. Software for the automatic scaling of critical frequency foF2 and MUF(3000)F2 from ionograms applied at the Ionospheric Observatory of Gibilmanna. Ann. Geophysics, 47, 1783-1790, 2004.
Scotto, C. Electron Density profile calculation technique for Autoscala ionogram analysis. Adv. Space Res. 44, 756-766, 2009.
Scotto, C., Pezzopane, M. A software for automatic scaling of foF2 and MUF(3000)F2 from ionograms. Proceedings of URSI 2002, Maastricht, 17-24 august, 2002 (on CD).
Scotto, C., Pezzopane, M. and Zolesi, B. Estimating the vertical electron density profile from an ionogram: On the passage from true to virtual heights via the target function method. Radio Scie.Vol. 47, RS1007, 6 PP., 2012, doi:10.1029/2011RS004833.
Shinn, D. H. and Whale H. A. Group velocities and group heights from magnetoionic theory. J. Atmos. Terr. Phys. 2, 85-105, 1952.
Titheridge, J. E. Ionogram analysis with the generalised program POLAN. World Data Center A for Solar-Terrestrial Physics, Boulder, CO (USA), Technical Report PB-89-152482/XAB UAG-93, 204 pp., 1985.
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