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Julie A. Feldt CEDAR-GEM workshop June 26 th, 2011.

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Presentation on theme: "Julie A. Feldt CEDAR-GEM workshop June 26 th, 2011."— Presentation transcript:

1 Julie A. Feldt CEDAR-GEM workshop June 26 th, 2011

2  Earth’s atmosphere  Ionosphere facts  Structure  Altitude  Latitude  Processes  Further Reading

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4  Ionized upper atmosphere that acts as the interface between earth and space environments.  Closely coupled to the thermosphere and magnetosphere  Located at ~60 to 1000+ km  Altitude structure is separated into regions  D region (60 – 100 km)  E region (100 – 150 km)  F 1 region (150 – 250 km)  F 2 region (250+ km)  Topside Ionosphere (above F 2 peak)

5  Latitude structure is defined by processes that occur due to Solar EUV effects, Earth’s magnetic field, Solar wind, IMF and Geomagnetic storms interactions  Boundary Definitions  Lower Boundary:  Upper Boundary: start of the plasmasphere, where H + becomes dominant

6  D region (60 – 100 km)  Photochemistry dominant, complicated ▪Negative ions ▪Hydrated ions ▪electrons  Major Ion: O 2 +, NO + and water cluster ions  Major Neutral: O 2, O and N 2  E region (100 – 150 km) Chapman layer  Weakly ionized plasma  Photochemistry dominant  Major Ion: N 2 +, O 2 + and NO +  Major Neutral: O 2, O and N 2  F 1 region (150 – 250 km) Chapman layer  Partially ionized plasma  Photochemistry dominant  Major Ion: O + and NO +  Major Neutral: O  F 2 region (250+ km)  Partially ionized plasma  Transition from chemical to diffusion dominance  Major Ion: O +  Major Neutral: O  Topside ionosphere (above the F 2 peak)  Diffusion dominant  Major Ion: O + and H +

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8 Solar EUV Effects No Magnetic Fields Addition of Earth’s Magnetic Field Addition of Solar Wind And IMF Addition of Geomagnetic Storms

9  The escaping of thermal plasma along the open field lines at the poles in the topside ionosphere.  Important transitions  Chemical to diffusion dominance  Subsonic to supersonic flow  Collision-dominated to collisionless regimes  Heavy to light ion composition

10  Flow pattern at the poles due to solar wind- magnetosphere interactions

11  Electric field induces currents that drive plasma upward, then diffuses down magnetic field lines away from the equator

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13  Pedersen conductivity is the electrical conductivity parallel to the electric field in the Earth’s ionosphere.  Hall conductivity is that which is perpendicular to the electric field. In the ionosphere this conductivity is due to the drift motion of the electron (ExB drift) and maximum in the E region where only electrons drifts in the direction of ExB. Hall currents are how the auroral electrojet forms.  Specific conductivity is a scalar conductivity that depends only on the collision frequencies; parallel electrical conductivity. From the plot above, it can be seen that Pedersen currents dominate the F-region while Hall currents dominate the E-region. This is important for Magnetospheric- Ionospheric coupling.

14 Equatorial anomaly (arcs) Dayside formation of peaks on either side of the magnetic equator due to the fountain effect.

15 Seasonal anomaly NmF2 in the winter is greater than NmF2 in the summer despite the fact that the solar zenith angle is smaller in summer, which occurs because of the seasonal changes in the neutral atmosphere.

16 South Atlantic anomaly an extreme value due to the magnitude of the geomagnetic field/radiation belts in this region

17  Ganguli, S. B. (1996), The Polar Wind, Rev. Geophys., 34(3), 311-348.  Kelley, M. C. (2009), The Earth’s Ionosphere: Plasma Physics and Electrodynamics, Second Edition ed., 556 pp., Academic Press, San Diego.  Schunk, R. W., and A. F. Nagy (2009), Ionospheres: Physics, Plasma Physics, and Chemistry, Second Edition ed., 628 pp., Cambridge University Press, Cambridge.  Zhang, S.-R., J. M. Holt, A. P. van Eyken, M. McCready, C. Amory- Mazaudier, S. Fukao, and M. Sulzer (2005), Ionospheric local model and climatology from long-term databases of multiple incoherent scatter radars, Geophys. Res. Lett., 32, L20102, doi:10.1029/2005GL023603.  http://www.igpp.ucla.edu/public/ekassie/ionosphere.html  www.haystack.mit.edu/edu/pcr/Astrochemistry/4%20- %20ATMOSPHERE/ionosphere%20as%20plasma.ppt  http://www.igpp.ucla.edu/public/rwalker/ess7_2008_fall/ESS%25207%25 20Atmosphere%2520and%2520Ionosphere.ppt

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19  Diurnal – related to the change in solar zenith angle and change in solar radiation flux due to the rotation of the Earth  Seasonal – related to a solar zenith angle change  Solar Cycle – related to a change in the solar EUV and X-ray radiation fluxes

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