Review: Recent Observations on Wave Heating

1. Review: Recent Observations on Wave Heating S. Kamio Kwasan and Hida Observatories Kyoto University

2. Observing wave • IntensityDensity fluctuationApparent motion of coronal structure • Doppler velocityBulk motion of plasma • Line width variationUnresolved motion (non-thermal) Because corona is optically thin, observation is effected by line of sight integration.

3. Loop Oscillation • Loop oscillation observed in M4.6 flare (TRACE 171Å) • Oscillation period at the loop top: 276±25s Aschwanden, M. J. et al. 1999, ApJ, 520, 880.

4. Wave mode • Observed period: 5min • AssumptionL=130,000kmne=109 cm-3B=20Gfast kink mode Aschwanden, M. J. et al. 1999, ApJ, 520, 880.

5. Visible Light • Coronagraph at Lomnicky Stit and Norikura • Fe XIV 5303Å (Green line, T=2MK) and continuum • Temporal variation for 2 hours White light pB map, contrast enhanced Minarovjech, M. et al. 2003, SoPh, 213, 269.

6. Wavelet Analysis • Line intensitypeak in 220-320s • Continuumpeak in 500-950s • Doppler velocitypeaks at 300s and 700s Minarovjech, M. et al. 2003, SoPh, 213, 269.

7. SOHO Spectrometers • SUMER(Solar Ultraviolet Measurements of Emitted Radiation) UV Spectrometer (660-1610Å) • CDS(Coronal Diagnostic Spectrometer)NIS(308-381Å, 513-633Å), GIS(151-785Å) • UVCS(Ultraviolet Coronagraph Spectrometer)Lyα(1216Å), O IV(1037Å), WL(Linear Polarization)Observation range 1 - 12R Observe temporal and spatial variations of:Line width, Doppler velocity, and Intensity.

8. Polar Plumes • SOHO/CDSNo scanning modeO V 629Å (logTe=5.4) Intensity and velocity variations in 1 hour • Plumes are denser and cooler plasma, where high speed solar wind is generated. • CDS Slit covers polar coronal hole and plume Banerjee, D. et al. 2000, SoPh, 196, 63.

9. Wavelet Analysis • Strong Power 1.65mHz(P=10min) • Intermittent nature Coherence time of 30min • Intensity oscillation is caused by slow magneto-acoustic wave Banerjee, D. et al. 2000, SoPh, 196, 63.

10. Density Fluctuation • SOHO/UVCSWLC (polarimeter)pB value: related to electron density • Strong power near1.6-1.8mHz (10min) • Density fluctuation appear intermittently with coherence time of 30 min Ofman, L. et al. 2000, ApJ, 529, 592.

11. Group Speed • Time lag between 1.9 and 2.1R656±165s • Assuming solar speed is 90±20 km/s, wave speed is 120±58km/s Comparable to the sound speed in 106K corona Ofman, L. et al. 2000, ApJ, 529, 592.

12. Equatorial Corona • SOHO/CDSOff limb observation of quiet coronaO V and Mg X • Line width variationup to the height of 140,000km Non-thermal Instrumental Harrison, R.A. et al. 2002, A&A, 392, 319.

13. Line Narrowing • Line width decreased by 10% above 50,000km • Amplitude of wave must increase in decreasing dentisy.  Line narrowing suggests wave dissipation limb Harrison, R.A. et al. 2002, A&A, 392, 319.

14. Polar Coronal Hole • SOHO/SUMER(Si VIII Te=8x105K), UVCS, and LASCO • Electron density distribution up to8R • Ne∝r-2 above 4R Doyle, J.G. et al. 1999, A&A, 349, 956.

15. Line Broadening • Sharp increase above 1.5R • Line width :thermal (2kTi/M)1/2 + non-thermal • Ti ~ 1.6 x 106K Doyle, J.G. et al. 1999, A&A, 349, 956.

16. Non-thermal Velocity • Theoretical relation of undamped propagating Alfven wave(Hollweg 1990) Good agreement with the observation below 1.2R Doyle, J.G. et al. 1999, A&A, 349, 956.

17. Summary • Previous papersCoronal wave and signature of dissipation have been found. • Improved spectral resolution of Solar-B/EIS will enable us to study the corona in detail. • Connection between chromosphere and corona:Spectroscopy of chromospheric lines with ground based stations and Solar-B/SOT

18. Call for Papers • For more information, visithttp://www.soho15.org/ 6-9 September 2004University of St Andrews, UK

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