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Dynamics of high-latitude pathches and associated small-scale irregularities during the October and November 2003 storms
Author(s)
Language
English
Obiettivo Specifico
3.9. Fisica della magnetosfera, ionosfera e meteorologia spaziale
Status
Published
JCR Journal
JCR Journal
Peer review journal
Yes
Title of the book
Issue/vol(year)
/ 70 (2008)
Publisher
Elsevier
Pages (printed)
879-888
Issued date
2008
Alternative Location
Abstract
Observations from a network of specially equipped GPS scintillation receivers in Northern Europe are used to investigate the dynamics of ionospheric plasma during the storm events of 30 October and 20 November 2003. The total electron content (TEC) and scintillation data, combined with ionospheric tomography produced by the multi-instrument
data analysis system (MIDAS), reveal strong enhancements and steep gradients in TEC during nighttime under a prevailing negative Bz component of the interplanetary magnetic field (IMF). Amplitude and phase scintillation maxima are often co-located with the TEC gradients at the edge of plasma patches, revealing the presence of small-scale irregularities and suggesting association with a tongue of ionization (TOI) convecting in an anti-sunward direction from
the American sector across the polar cap. Similarities and differences between the ionospheric response to the two storms are investigated. The 30 October event reveals a quite complex scenario showing two phases of plasma dynamics: the former reflects the expected convection pattern for IMF Bz southward and the latter possibly indicates a sort of TEC plasma stagnation signature of the more complex convection patterns during several positive/negative excursions of IMF Bz.
data analysis system (MIDAS), reveal strong enhancements and steep gradients in TEC during nighttime under a prevailing negative Bz component of the interplanetary magnetic field (IMF). Amplitude and phase scintillation maxima are often co-located with the TEC gradients at the edge of plasma patches, revealing the presence of small-scale irregularities and suggesting association with a tongue of ionization (TOI) convecting in an anti-sunward direction from
the American sector across the polar cap. Similarities and differences between the ionospheric response to the two storms are investigated. The 30 October event reveals a quite complex scenario showing two phases of plasma dynamics: the former reflects the expected convection pattern for IMF Bz southward and the latter possibly indicates a sort of TEC plasma stagnation signature of the more complex convection patterns during several positive/negative excursions of IMF Bz.
References
Aquino, M., Dodson, A., Alfonsi, L., De Franceschi, G.,
Romano, V., Mitchell, C.N., 2005a. Scintillation monitoring
results during the 30 October 2003 space weather event, In:
Proceedings of Second European Space Weather Week, on
line at /http://www.esa-spaceweather.net/spweather/workshops/
eswwII/proc/Session3/Aquino_poster.ppsS.
Aquino, M., Moore, T., Dodson, A., Waugh, S., Souter, J.,
Rodrigues, F.S., 2005b. Implications of ionospheric
scintillation for GNSS users in Northern Europe. The
Journal of Navigation, Royal Institute of Navigation 58,
241–256.
Basu, Su., Basu, S., MacKenzie, E., Coley, W.R., Sharber, J.R.,
Hoegy, W.R., 1990. Plasma structuring by the gradient drift
instability at high latitudes and comparison with velocity
shear driven processes. Journal of Geophysical Research 95
(A6), 7799–7818.
Basu, Su., Basu, S., Makela, J.J., Sheehn, R.E., MacKenzie, E.,
Doherty, P., Wright, J.W., Keskinen, M.J., Pallamraju, D.,
Paxton, L.J., Berkey, F.T., 2005. Two components of
ionospheric plasma structuring at midlatitudes observed
during the large magnetic storm of October 30, 2003.
Geophysical Research Letters 32, L12S06.
Beach, T.L., 2006. Perils of the GPS phase scintillation index
(sF). Radio Science 41, RS5S31.
Carlson, H.C., 1994. The dark polar ionosphere: progress and
future challenges. Radio Science 29, 157–166.
Coker, C., Bust, G.S., Doe, R.A., Gaussiran III, T.L., 2004. High
latitude plasma structure and scintillation. Radio Science 39,
RS1S15.
Coley, W.R., Heelis, R.A., 1998. Structure and occurrence of
polar ionization patches. Journal of Geophysical Research
103 (A2), 2201–2208.
Coster, A., Skone, S., Mitchell, C. N., De Franceschi, G.,
Alfonsi, L., Romano, V., 2005. Global studies of GPS
Scintillation, In: Proceedings of ION 2005 National Technical
Meeting, January 24–26, 2005, San Diego, CA.
Crowley, G., 1996. Ionospheric patches and blobs. In: Ross
Stone, W. (Ed.), The Review of Radio Science 1993–1996.
Oxford University Press, pp. 149–619.
Decker, D.T., Valladares, C.E., Sheehan, R., Basu, S., Anderson,
D.N., Heelis, R.A., 1994. Modeling daytime F layer patches
over Sondrestrom. Radio Science 29 (1), 249–268.
De Franceschi, G., Romano, V., Alfonsi, L., Pezzopane, M.,
Zolesi B., 2003. ISACCO (Ionospheric Scintillations Arctic
Campaign Coordinated Observations) project at Ny-Alesund.
Paper presented at Atmospheric Remote Sensing Using
Satellite Navigation Systems, Joint Working Group, Union
Radio Science International, Matera, Italy.
De Franceschi, G., Alfonsi, L., Romano, V., 2006. Isacco: an
Italian project to monitor the high latitude ionosphere by
means of GPS receivers. GPS Solutions, doi:10.1007/S10291-
006-0036-6.
Doherty, P.H., Delay, S.H., Valladares, C.E., Klobuchar, J.,
2000. Ionospheric scintillation effects in the equatorial and
auroral regions. In: Proceedings of ION GPS 2000, Salt Lake
City, USA.
Foster, J.C., Rideout, W., 2005. Midlatitude TEC enhancements
during the October 2003 supestorm. Geophysical Research
Letters 32, L12S04.
Foster, J.C., Coster, A.J., Erickson, P.J., Holt, J.M., Lind, F.D.,
Rideout, W., McCready, M., van Eyken, A., Barnes, R.J.,
Greenwald, R.A., Rich, F.J., 2005. Multiradar observations
of the polar tongue of ionization. Journal of Geophysical
Research 110, A09S31.
Garner, T.W., Bust, G.S., Gaussiran Jr., T.L., Straus, P.R., 2006.
Variations in the midlatitude and equatorial ionosphere
during the October 2003 magnetic storm. Radio Science 41,
RS6S08.
GISTM User’s Manual, 2005. GSV GPS Silicon Valley, 1131
Seena Avenue. Los Altos, CA 94024, USA.
Gondarenko, N.A., Guzdar, P.N., 2004. Plasma patch structuring
by the nonlinear evolution of the gradient drift instability
in the high-latitude ionosphere. Journal of Geophysical
Research 109, A09301.
Kivanc-, O¨ ., Heelis, R.A., 1997. Structures in ionospheric number
density and velocity associated with polar cap ionization
patches. Journal of Geophysical Research 102 (A1),
307–318.
Mannucci, A.J., Tsurutani, B., Iijima, T., Komjathy, B.A., Saito,
A., Gonzalez, W.D., Guarnieri, F.L., Kozyra, J.U., Skoug,
R., 2005. Dayside global ionospheric response to the major
interplanetary events of October 29–30, 2003 ‘‘Halloween
storms’’. Geophysical Research Letters 32, L12S02.
Mitchell, C.N., Spencer, P.S.J., 2003. A three-dimensional time
dependent algorithm for ionospheric imaging using GPS.
Annals of Geophysics 46, 687–696.
Mitchell, C.N., Alfonsi, L., De Franceschi, G., Lester, M.,
Romano, V., Wernik, A.W., 2005. GPS TEC and scintillation
measurements from the polar ionosphere during the October
2003 storm. Geophysical Research Letters 32, L12S03.
Milan, S.N., Lester, M., Yeoman, T.K., 2002. HF radar polar
patch formation revisited: summer and winter variations in
dayside plasma structuring. Annales Geophysicae 20,
487–499.
Morrissey, T.N., Shallberg, K.W., Van Dierendonck, A.J.,
Nicholson, M.J., 2004. GPS receiver performance characterization
under realistic ionospheric phase scintillation environments.
Radio Science 39, RS1S20.
Oksavik, K., Ruohoniemi, J.M., Greenwald, R.A., Baker, J.B.H.,
Moen, J., Carlson, H.C., Yeoman, T.K., Lester, M., 2006.
Observations of isolated polar cap patches by the European
Incoherent Scatter (EISCAT) Svalbard and Super Dual Auroral Radar Network (SuperDARN) Finland radars.
Journal of Geophysical Research 111, A05310.
Rodger, A.S., 1998. Polar patches—outstanding issues. In: Moen,
J., et al. (Eds.), Polar Cap Boundary Phenomena. Kluwer
Academic Publishers, Dordrecht, pp. 281–288.
Rodrigues, F.S., Aquino, M., Dodson, A., Moore, T., Waugh, S.,
2004. Statistical analysis of GPS ionospheric scintillation and
short-time TEC variations over Northern Europe. Journal of
the Institute of Navigation 51 (1), 59–75.
Sato, T., 1959. Morphology of ionospheric F2 disturbances in the
polar region: a linkage between polar patches and plasmaspheric
drainage plumes. Reports on Ionospheric Research
and Space Research of Japan, 131, 91pp.
Skoug, R.M., Gosling, J.T., Steinberg, J.T., McComas, D.J.,
Smith, C.W., Ness, N.F., Hu, Q., Burlaga, L.F., 2004.
Extremely high speed solar wind: 29–30 October 2003.
Journal of Geophysical Research 109, A09102.
Spencer, P.S.J., Mitchell, C.N., 2008. Imaging of fast moving
ionospheric patches in the polar cap. Annals of Geophysics, in
press.
Stolle, C., Lilensten, J., Schlueter, S., Jacobi, Ch., Rietveld, M.,
Luehr, H., 2006. Observing the north polar ionosphere on 30
October 2003 by GPS imaging and IS radars. Annales
Geophysicae 24, 107–113.
Tsunoda, R.T., 1988. High-latitude F region irregularities: a
review and synthesis. Review of Geophysics 26, 719–760.
Van Dierendonck, A.J., Klobuchar, J., Hua, Q., 1993. Ionospheric
scintillation monitoring using commercial single
frequency C/A code receivers. In: ION GPS-93 Proceedings
of the Sixth International Technical Meeting of the Satellite
Division of the Institute of Navigation. Institute of Navigation,
Salt Lake City, UT, pp. 1333–1342.
Weimer, D.R., 1996. A flexible, IMF dependent model of highlatitude
electric potentials having ‘‘space weather’’ applications.
Geophysical Research Letters 23 (18), 2549–2552.
Weimer, D.R., 2001. An improved model of ionospheric electric
potentials including substorm perturbations and application
to the Geospace Environment Modeling November 24, 1996,
event. Journal of Geophysical Research 106, 407–416.
Yizengaw, E., Moldwin, M.B., Komjathy, A., Mannucci, A.J.,
2006. Unusual topside ionospheric density response to the
November 2003 superstorm. Journal of Geophysical Research
111, A02308.
Romano, V., Mitchell, C.N., 2005a. Scintillation monitoring
results during the 30 October 2003 space weather event, In:
Proceedings of Second European Space Weather Week, on
line at /http://www.esa-spaceweather.net/spweather/workshops/
eswwII/proc/Session3/Aquino_poster.ppsS.
Aquino, M., Moore, T., Dodson, A., Waugh, S., Souter, J.,
Rodrigues, F.S., 2005b. Implications of ionospheric
scintillation for GNSS users in Northern Europe. The
Journal of Navigation, Royal Institute of Navigation 58,
241–256.
Basu, Su., Basu, S., MacKenzie, E., Coley, W.R., Sharber, J.R.,
Hoegy, W.R., 1990. Plasma structuring by the gradient drift
instability at high latitudes and comparison with velocity
shear driven processes. Journal of Geophysical Research 95
(A6), 7799–7818.
Basu, Su., Basu, S., Makela, J.J., Sheehn, R.E., MacKenzie, E.,
Doherty, P., Wright, J.W., Keskinen, M.J., Pallamraju, D.,
Paxton, L.J., Berkey, F.T., 2005. Two components of
ionospheric plasma structuring at midlatitudes observed
during the large magnetic storm of October 30, 2003.
Geophysical Research Letters 32, L12S06.
Beach, T.L., 2006. Perils of the GPS phase scintillation index
(sF). Radio Science 41, RS5S31.
Carlson, H.C., 1994. The dark polar ionosphere: progress and
future challenges. Radio Science 29, 157–166.
Coker, C., Bust, G.S., Doe, R.A., Gaussiran III, T.L., 2004. High
latitude plasma structure and scintillation. Radio Science 39,
RS1S15.
Coley, W.R., Heelis, R.A., 1998. Structure and occurrence of
polar ionization patches. Journal of Geophysical Research
103 (A2), 2201–2208.
Coster, A., Skone, S., Mitchell, C. N., De Franceschi, G.,
Alfonsi, L., Romano, V., 2005. Global studies of GPS
Scintillation, In: Proceedings of ION 2005 National Technical
Meeting, January 24–26, 2005, San Diego, CA.
Crowley, G., 1996. Ionospheric patches and blobs. In: Ross
Stone, W. (Ed.), The Review of Radio Science 1993–1996.
Oxford University Press, pp. 149–619.
Decker, D.T., Valladares, C.E., Sheehan, R., Basu, S., Anderson,
D.N., Heelis, R.A., 1994. Modeling daytime F layer patches
over Sondrestrom. Radio Science 29 (1), 249–268.
De Franceschi, G., Romano, V., Alfonsi, L., Pezzopane, M.,
Zolesi B., 2003. ISACCO (Ionospheric Scintillations Arctic
Campaign Coordinated Observations) project at Ny-Alesund.
Paper presented at Atmospheric Remote Sensing Using
Satellite Navigation Systems, Joint Working Group, Union
Radio Science International, Matera, Italy.
De Franceschi, G., Alfonsi, L., Romano, V., 2006. Isacco: an
Italian project to monitor the high latitude ionosphere by
means of GPS receivers. GPS Solutions, doi:10.1007/S10291-
006-0036-6.
Doherty, P.H., Delay, S.H., Valladares, C.E., Klobuchar, J.,
2000. Ionospheric scintillation effects in the equatorial and
auroral regions. In: Proceedings of ION GPS 2000, Salt Lake
City, USA.
Foster, J.C., Rideout, W., 2005. Midlatitude TEC enhancements
during the October 2003 supestorm. Geophysical Research
Letters 32, L12S04.
Foster, J.C., Coster, A.J., Erickson, P.J., Holt, J.M., Lind, F.D.,
Rideout, W., McCready, M., van Eyken, A., Barnes, R.J.,
Greenwald, R.A., Rich, F.J., 2005. Multiradar observations
of the polar tongue of ionization. Journal of Geophysical
Research 110, A09S31.
Garner, T.W., Bust, G.S., Gaussiran Jr., T.L., Straus, P.R., 2006.
Variations in the midlatitude and equatorial ionosphere
during the October 2003 magnetic storm. Radio Science 41,
RS6S08.
GISTM User’s Manual, 2005. GSV GPS Silicon Valley, 1131
Seena Avenue. Los Altos, CA 94024, USA.
Gondarenko, N.A., Guzdar, P.N., 2004. Plasma patch structuring
by the nonlinear evolution of the gradient drift instability
in the high-latitude ionosphere. Journal of Geophysical
Research 109, A09301.
Kivanc-, O¨ ., Heelis, R.A., 1997. Structures in ionospheric number
density and velocity associated with polar cap ionization
patches. Journal of Geophysical Research 102 (A1),
307–318.
Mannucci, A.J., Tsurutani, B., Iijima, T., Komjathy, B.A., Saito,
A., Gonzalez, W.D., Guarnieri, F.L., Kozyra, J.U., Skoug,
R., 2005. Dayside global ionospheric response to the major
interplanetary events of October 29–30, 2003 ‘‘Halloween
storms’’. Geophysical Research Letters 32, L12S02.
Mitchell, C.N., Spencer, P.S.J., 2003. A three-dimensional time
dependent algorithm for ionospheric imaging using GPS.
Annals of Geophysics 46, 687–696.
Mitchell, C.N., Alfonsi, L., De Franceschi, G., Lester, M.,
Romano, V., Wernik, A.W., 2005. GPS TEC and scintillation
measurements from the polar ionosphere during the October
2003 storm. Geophysical Research Letters 32, L12S03.
Milan, S.N., Lester, M., Yeoman, T.K., 2002. HF radar polar
patch formation revisited: summer and winter variations in
dayside plasma structuring. Annales Geophysicae 20,
487–499.
Morrissey, T.N., Shallberg, K.W., Van Dierendonck, A.J.,
Nicholson, M.J., 2004. GPS receiver performance characterization
under realistic ionospheric phase scintillation environments.
Radio Science 39, RS1S20.
Oksavik, K., Ruohoniemi, J.M., Greenwald, R.A., Baker, J.B.H.,
Moen, J., Carlson, H.C., Yeoman, T.K., Lester, M., 2006.
Observations of isolated polar cap patches by the European
Incoherent Scatter (EISCAT) Svalbard and Super Dual Auroral Radar Network (SuperDARN) Finland radars.
Journal of Geophysical Research 111, A05310.
Rodger, A.S., 1998. Polar patches—outstanding issues. In: Moen,
J., et al. (Eds.), Polar Cap Boundary Phenomena. Kluwer
Academic Publishers, Dordrecht, pp. 281–288.
Rodrigues, F.S., Aquino, M., Dodson, A., Moore, T., Waugh, S.,
2004. Statistical analysis of GPS ionospheric scintillation and
short-time TEC variations over Northern Europe. Journal of
the Institute of Navigation 51 (1), 59–75.
Sato, T., 1959. Morphology of ionospheric F2 disturbances in the
polar region: a linkage between polar patches and plasmaspheric
drainage plumes. Reports on Ionospheric Research
and Space Research of Japan, 131, 91pp.
Skoug, R.M., Gosling, J.T., Steinberg, J.T., McComas, D.J.,
Smith, C.W., Ness, N.F., Hu, Q., Burlaga, L.F., 2004.
Extremely high speed solar wind: 29–30 October 2003.
Journal of Geophysical Research 109, A09102.
Spencer, P.S.J., Mitchell, C.N., 2008. Imaging of fast moving
ionospheric patches in the polar cap. Annals of Geophysics, in
press.
Stolle, C., Lilensten, J., Schlueter, S., Jacobi, Ch., Rietveld, M.,
Luehr, H., 2006. Observing the north polar ionosphere on 30
October 2003 by GPS imaging and IS radars. Annales
Geophysicae 24, 107–113.
Tsunoda, R.T., 1988. High-latitude F region irregularities: a
review and synthesis. Review of Geophysics 26, 719–760.
Van Dierendonck, A.J., Klobuchar, J., Hua, Q., 1993. Ionospheric
scintillation monitoring using commercial single
frequency C/A code receivers. In: ION GPS-93 Proceedings
of the Sixth International Technical Meeting of the Satellite
Division of the Institute of Navigation. Institute of Navigation,
Salt Lake City, UT, pp. 1333–1342.
Weimer, D.R., 1996. A flexible, IMF dependent model of highlatitude
electric potentials having ‘‘space weather’’ applications.
Geophysical Research Letters 23 (18), 2549–2552.
Weimer, D.R., 2001. An improved model of ionospheric electric
potentials including substorm perturbations and application
to the Geospace Environment Modeling November 24, 1996,
event. Journal of Geophysical Research 106, 407–416.
Yizengaw, E., Moldwin, M.B., Komjathy, A., Mannucci, A.J.,
2006. Unusual topside ionospheric density response to the
November 2003 superstorm. Journal of Geophysical Research
111, A02308.
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