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Joe Comberiate Larry Paxton JHU/APL June 28, 2007

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1 Joe Comberiate Larry Paxton JHU/APL June 28, 2007
Coordinated Space-Based Observations of Equatorial Plasma Bubbles Using TIMED/GUVI and DMSP Joe Comberiate Larry Paxton JHU/APL June 28, 2007

2 GUVI/SSUSI Disk Imaging
Limb Scan 74°/98° Inclination Cross-track scan perpendicular to orbit

3 GUVI/SSUSI Disk Imaging
Equatorial Plasma Bubbles (EPB) GUVI 1356 Å Limb Scan 74°/98° Inclination Cross-track scan perpendicular to orbit Disk Scan Equatorial arcs

4 Goal: Recover Altitude Information from LEO Disk Images
Algorithm for tomographically reconstructing multi-dimensional ionospheric electron density profiles from GUVI (or SSUSI) disk observations Statistical inversion of discrete forward model of UV brightness from ionospheric electron density Tasks for the CEDAR Postdoc Award Needs tweaking Jan-June 2007 Automated Bubble Detection Algorithm Midlatitude hmF2/NmF2 Retrievals July-Dec. 2007 GUVI EPB Climatology SSUSI F16/F17 EPB Imaging 2008 SSUSI/GUVI Coordinated Observations EPB Prediction/Growth Studies

5 Tomographic Reconstruction of ne
3-D section of ionosphere along orbit path Assume invariance along field lines for that segment Distinct overlapping scans with respect to altitude vs. longitude profile allow for tomography

6 EPB Observations at Conjugate Locations
Compares with GUVI summary image Location and width of bubble Structure consistent along field lines Two images from simulation study

7 Bubble Structures Seen by GUVI
Multiple bubble structures, 40 km longitudinal resolution Bifurcated structure seen with secondary instability Two images from simulation study

8 Cornell Narrow Field Imager Comparison
Comparison with 7774 Å ground-based imager Reconstructed image shows excellent agreement with the CNFI image Westward tilt, overall shape, and bubble width all agree Courtesy of M. Kelley (Cornell) & J. Makela (UIUC)

9 Automated EIA and EPB Detection
EIA peaks Plasma bubbles SVD analysis identifies EIA peaks and separates bubbles from background Inversions run at North and South EIA peaks [from Henderson 2006]

10 Implications for EPB Science
Observations of separation, symmetry, and density of EIA peaks Long-term observations contribute to plasma bubble climatology Characterization of bubble structures Typical, simple EPB Two images from simulation study

11 Characterization of EPB
Two images from simulation study No tilt: bubble recently formed

12 Characterization of EPB
Two images from simulation study nmF2 = 1.4 x 106 cm -3, hmF2 = 380 km

13 Characterization of EPB
Two images from simulation study ∂n/∂h ≈ 104 cm -3/km for bottomside

14 What’s Next? Long-term database of EPB reconstructions
Climatological studies of EPB occurrence (extension to ) Quantitative characterization of bubble structure Validation of hmF2, NmF2 with models (GAIM, IRI, etc.) and data Application of inversion technique to SSUSI data GUVI and SSUSI coordinated observations of EPBs More coordinated observations with ground-based instruments (radars, imagers, ionosondes)

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