Space Weather Workshop, Boulder, CO, 16 - 19 April 2013 No. 1 Ionospheric plasma irregularities at high latitudes as observed by CHAMP Hermann Lühr and.

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Presentation transcript:

Space Weather Workshop, Boulder, CO, April 2013 No. 1 Ionospheric plasma irregularities at high latitudes as observed by CHAMP Hermann Lühr and Jaeheung Park GFZ, German Research Centre for Geosciences, Potsdam, Germany Space Weather Workshop 2013 Boulder, CO, April 16-19, 2013

Space Weather Workshop, Boulder, CO, April 2013 No. 2 (Basu et al., 2002) GPS signal scattering GPS scintillations at receiver from Materassi, 2005 Steep electron density gradients scatter RF signals and affect systems like GPS. Disturbance of GPS signal by ionospheric irregularities NOON MIDNIGHT

Space Weather Workshop, Boulder, CO, April 2013 No. 3 Two examples of ionospheric irregularities at high latitudes Correlation between B-field and Ne

Space Weather Workshop, Boulder, CO, April 2013 No. 4 Characteristics of high-latitude irregularities  The electron density is locally enhanced over scales of ~100km (steep gradients).  As a response, the magnetic field strength is decreased (diamagnetic effect of dense plasmas).  Irregularities are always accompanied by bursts of small-scale field-aligned currents.

Space Weather Workshop, Boulder, CO, April 2013 No. 5 Dependence of irregularities on auroral activity Low activity NHSH High activity The occurrence frequency of irregularities depends significantly on the auroral activity. Preferred region of occurrence is the auroral oval. In particular, the cusp around noon and the substorm sector before midnight.

Space Weather Workshop, Boulder, CO, April 2013 No. 6 Equinox June solstice Dec. solstice Seasonal dependence of irregularities The occurrence rate is generally high during equinox months. In the northern hemisphere many more events are observed around December solstice than around June. This seasonal difference is not so pronounced in the southern hemisphere. Two effects are playing a role: The annual variation with a minimum around June/July, The seasonal dependence, preference of dark ionosphere. In the NH both effects are in phase, in the SH they are in anti-phase. NH SH

Space Weather Workshop, Boulder, CO, April 2013 No. 7 Irregularities appear preferably in certain geographic regions

Space Weather Workshop, Boulder, CO, April 2013 No. 8 Crustal magnetic fields at CHAMP altitude (~400km) Regions of positive anomalies in the auroral zone correlate well with the event occurrence peaks.

Space Weather Workshop, Boulder, CO, April 2013 No. 9 Superposed epoch analysis of field-aligned currents co-located with events Irregularities are always accompanied by bursts of small-scale FACs. In the morning and pre- noon sector events are co- located with downward FAC, during afternoon and evening they accompany upward FACs. This implies a co-location with the R1 FAC region.

Space Weather Workshop, Boulder, CO, April 2013 No. 10 T So far the statistical properties of high-lat. irregularities have been presented. Next we study a long-lasting event occurring during the Halloween storm, Oct

Space Weather Workshop, Boulder, CO, April 2013 No. 11 Long-lasting event during “Halloween storm”

Space Weather Workshop, Boulder, CO, April 2013 No. 12 Long-lasting event during “Halloween storm”

Space Weather Workshop, Boulder, CO, April 2013 No. 13 Irregularity signature in airglow images The irregularity is visible in airglow images of IMAGE. It appears as a narrow ribbon extending in east/west direction over 2000 km.

Space Weather Workshop, Boulder, CO, April 2013 No. 14 T

Space Weather Workshop, Boulder, CO, April 2013 No. 15 TEC signature of event Steep TEC gradients are encountered above CHAMP. They suggest a high reaching field-aligned sheet of enhance electron density. Even above GRACE (500km) it is still detectable 4 hours later.

Space Weather Workshop, Boulder, CO, April 2013 No. 16 T Summary  High-latitude electron density irregularities occur as frequently as plasma bubbles at low latitude.  Preferred region is the auroral region, in particular polar cusp and substorm region.  There are geographic regions of high occurrence rates, Scandinavia, Siberia, northern Canada.  After magnetic storms fossil irregularities can be encountered at middle latitudes that rotate with the Earth and persist for more than 12 hours. References: Park et al. (2012, JGR); Park et al. (2012, JASTP)

Space Weather Workshop, Boulder, CO, April 2013 No. 17 T

Space Weather Workshop, Boulder, CO, April 2013 No. 18 Number of events during solar maximum and solar minimum years northern hemisphere southern hemisphere Equinox June solstice December solstice