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On the Cause of Solar Differential Rotation

On the Cause of Solar Differential Rotation. 太陽差動自轉的成因. Ling-Hsiao Lyu Institute of Space Science, National Central University 呂凌霄 中央大學太空科學研究所. 11-years Solar Cycle Based on Sunspot Number. 22-years Solar Cycle Based on Leading Sunspot Magnetic Polarity.

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On the Cause of Solar Differential Rotation

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  1. On the Cause of Solar Differential Rotation 太陽差動自轉的成因 Ling-Hsiao Lyu Institute of Space Science, National Central University 呂凌霄 中央大學太空科學研究所

  2. 11-years Solar Cycle Based on Sunspot Number

  3. 22-years Solar Cycle Based on Leading Sunspot Magnetic Polarity

  4. Solar Differential Rotation --> Solar Dynamo (ww-effects, wa-effects)-->22-years Magnetic Solar Cycle

  5. Differential rotation is the major cause of solar cycle! What is the cause of solar differential rotation?

  6. Differential Rotation in Solar InteriorSoHO/MDI Observation

  7. Solar Interior Structures convection zone: r=1~0.86Rs(old model) r=1~0.7Rs(new model)

  8. Sound Speed Distribution in Solar Interior Abnormal plasma sound speed (c2=T/m distribution in the solar interior (MDI observation) c2)>0 c2)<0 T : plasma temperature m: average mass

  9. MDI Observations(Kosovichev et al., 1997) solar tachocline region (A) (A) Differential Rotation (B) Abnormal Plasma Temperature Distribution CauseResult (A)  Turbulence Heating(B) (B)

  10. Averge Mass m Distribution in Standard Solar Model

  11. (C) Average Mass m Distribution in Standard Solar Model solar tachocline region (C) (C) CauseResult Under estimate mixing length Under estimate m Over estimate c2=T/m (B) Abnormal Plasma Temperature Distribution (B)

  12. Sound Speed Distribution in Solar Interior Abnormal plasma sound speed (c2=T/m distribution in the solar interior (MDI observation) c2)>0 c2)<0 T : plasma temperature m: average mass

  13. Our Explanation We assume that a normalstate means a hydrodynamic equilibrium state.

  14. Our Explanation on Abnormal c2 Distribution Plasma Temperature T1 > T2 > T3 Average Mass: m1 > m2 > m3 Abnormal plasma sound speed (c2=T/m distribution in the solar interior (MDI observation) c2)>0 c2)<0 2 1 3

  15. Evidence onSmaller mixing length in the low latitude regionLarge mixing length in the high latitude region Average mass m1>m2>m3

  16. Zonal flow can lead to horizontal force balance in a rotational star or planet with latitudinal temperature gradient Upper-half tachocline: (in solar convection zone) Poleward temperature gradient easterly wind Lower-half tachocline: (in solar radiative zone) Equatorward temperature gradient  westerly wind

  17. Easterly wind in the upper-half solar tachocline region (in solar convection zone). WARM COOL WARM Horizontal force balance: Poleward temperature gradient easterly wind

  18. Westerly wind in the lower-half solar tachocline region (in solar radiative zone) WARM HOT WARM Horizontal force balance: Equatorward temperature gradient  westerly wind

  19. westerly wind easterly wind ~60 degrees

  20. Initial formation of solar filaments’ magnetic field BBO H observation of solar filaments05/11/1998

  21. Zonal Flow in Rotational System -->Rossby wave Unstable Stable

  22. Laboratory simulation of general circulation (1) Holton (1992): This is not a Rossby wave, because w is uniform in this case. COOL HOT

  23. Laboratory simulation of general circulation (2) Holton (1992): This is not a Rossby wave, because w is uniform in this case. e.g., Solar convection zone WARM COOL

  24. Formation of Rossby wave and Alfven waves in the coronal hole and boundary of coronal hole region Bf Bf in lower latitude region can stabilize Rossby wave instability

  25. Rossby wave: H observation of solar filaments (02/22/1998)

  26. Rossby wave:MDI observation of solar magnetic field (02/22/1998)

  27. Rossby wave: Yohkoh SXT observation 07/05/1998

  28. Nonlinear Evolution of Rossby Wave Lead to Formation of Elephant-trunk Coronal Hole

  29. MDI Observation of Solar Differential RotationRed: faster, Blue: slower Generation of large amplitude, nearly circularly polarized Alfven waves in the coronal hole region

  30. Ulysses observation of solar wind speed(1991-1998)

  31. It is believed that …observed large-amplitudeAlfven waves are responsible forsolar wind acceleration in the polar coronal hole Q: What is the energy source of these large-amplitude Alfven waves?A: Rossby wave!

  32. Rossby wave on the Sun can result in plane polarized Alfven wave in the solar wind

  33. Theoretical Solutions of Steady State Nonlinear Alfven Waves and Rotational Structure in Ion-Electron Two-Fluid Plasma(Lyu and Kan, 1989)(Lyu, 1991)

  34. Observation of Plane Polarized Alfven Waves in the Solar Wind --- Evidence of Rossby wave on the Sun

  35. (1988)

  36. Mavromichalaki et al., 1988

  37. Conclusion Our Model: Plasma in solar convection zone has Higher Temperature in the Polar Region Easterly Wind ==> Differential Rotation BBO H observation 05/11/1998

  38. Discussion: Cause of Maunder Minimum and variations in solar activities: Gravitational disturbances and/or tidal effects>> reduce density gradient (in the tachocline region)>> reduce diamagnetic current >> reduce temperature gradient>> reduce differential rotation>> reduce solar activities>> reduce sunspots number Observations: (~ 90 years Gleissberg cycle) (tidal effect) Sunspots number decreases with increasing solar diameter. (Jupiter:11.86 yr.) (Saturn: 29.5 yr. ) (Uranus: 84 yr.)

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