Presentation is loading. Please wait.

Presentation is loading. Please wait.

Magnetic Reconnection in Flares Yokoyama, T. (NAOJ) Reconnection mini-workshop 2002.7.9. Kwasan obs. Main Title 1.Introduction : Reconnection Model of.

Published byMoses Griffith Modified over 8 years ago

Similar presentations

Presentation on theme: "Magnetic Reconnection in Flares Yokoyama, T. (NAOJ) Reconnection mini-workshop 2002.7.9. Kwasan obs. Main Title 1.Introduction : Reconnection Model of."— Presentation transcript:

1 Magnetic Reconnection in Flares Yokoyama, T. (NAOJ) Reconnection mini-workshop 2002.7.9. Kwasan obs. Main Title 1.Introduction : Reconnection Model of a Flare 2.Direct Observation of a Reconnection Inflow 3.MHD Simulation of a Flare

2 Reconnection Model of a Flare & Yohkoh Observations

3 Observation of solar flares by Yohkoh Cusp-shape of the flare loop (Tsuneta et al. 1992) Loop-top hard X-ray source (Masuda et al. 1994)

4 Plasma ejection associated with a flare Shibata et al. (1995); Ohyama et al. (1997)

5 Magnetic reconnection model of solar flares Carmichael (1964); Sturrock (1966); Hirayama (1974); Kopp & Pneuman (1976) Magnetic energy of coronal field Magnetic reconnection Bulk kinetic & thermal energy of plasma

6 Observation of Reconnection Inflow in a Flare T. Yokoyama (NAOJ) K. Akita (Osaka Gakuin Univ.) T. Morimoto, K. Inoue (Kyoto Univ.) J. Newmark (NASA/GSFC)

7 Many pieces of indirect evidence cusp loops, loop-top HXR sources, plasma ejection supporting MHD simulations FOUND !! But … for solar flares, here has been NO direct evidence of reconnection NO observation of energy-release site itself We should search for the reconnection flows …

8 2. Flare 1999-3-18 Long-Duration Event (LDE; ~300  A) on the NE solar limb Simultaneous coronal mass ejection (CME) SOHO/EIT SOHO/LASCO

9 Soft X-ray Observation by SXT of Yohkoh cusp-shaped flare loops 100,000 km 3:033:224:37 8:0316:270:31 T > 4MK

10 Observation of plasmoid ejection and reconnection inflow EUV ~1.5MK SXR > 4MK 100,000 km

11 Observation of plasmoid ejection and reconnection inflow

12 Plasmoid ejection Inflow Reconnected loop X-point

13 Evolution of 1D plot of EIT data across the X-point

14 Evolution of 1D plot of SXT data along the cusp

15 Energy release rate (1) Derivation of reconnection rate From SXR observation Lifetime From EUV observation Energy release rate (2)

16 From (1) = (2) Thus, we obtain Consistent with the Petschek model.

17 MHD Simulation of a Flare T. Yokoyama (NAOJ) K. Shibata (Kyoto Univ.)

18 MHD Simulation of a Flare Yokoyama & Shibata (1998) Simulation from the peak to the end of the decay phase Growth and cooling of post-flare loops Light curve, differential emission measure In this study Heat Conduction, Evaporation & Radiation Cooling This Study

19 Numerical Model 2.5-dimensional MHD Non-linear non-isotropic (Spitzer type) heat conduction Cooling by the optically-thin radiation No gravity Initially in magnetohydrostatic equilibrium Localized resistivity For typical case, Plasma  = 0.2 Alfv = 100 sec cond = 600 sec rad = 16000 sec Numerical Model chromosphere corona

20 Time Series Temporal Evolution

21 Movie : Temperature

22 Movie : Density

23 Effects of the Heat Conduction & Radiation Cooling Only MHD Tempera ture Density Effects of Heat Conduction & Radiation Cooling #0

24 Effects of the Heat Conduction & Radiation Cooling Tempera ture Density Only MHDConduction Effects of Heat Conduction & Radiation Cooling #1

25 Conduction & Radiation Conduction Effects of the Heat Conduction & Radiation Cooling Tempera ture Density Only MHD Effects of Heat Conduction & Radiation Cooling #2 This is the case without the radiation but with the conduction.

26 Differential Emission Measure (DEM) Derived from the Simulation Results Time DEM Rapid increase of the DEM of hot plasma in the rise phase, keeping the temperature. Temperature of maximum DEM decreases in the decay phase, keeping the amount of the DEM.

27 Time Dere & Cook (1979) ( only initial part of the decay phase ) DEM Derived from the Simulation DEM Derived from the Observations DEM: Comparison

28 Light Curve & Energy Budget The energy release continues even in the decay phase. The total amount of the released (magnetic) energy is several times the thermal energy derived from the snap shot at the peak of the flare. Light Curve & Energy Budget

29 Parameter survey : Effect of plasma  When the  is smaller, the cooling time is shorter. Plasma Beta #0

30 When the  is smaller, the cooling time is shorter. Explanation If we assume is independent of at the start of the radiation cooling process Plasma Beta #1 radiation: energy balance in reconnection & magnetic confinement (Shibata & Yokoyama 1999)

31 Summary Many pieces of evidence supporting the magnetic reconnection model of flares were found by recent space- craft observations. There is one example of direct observation of reconnection inflow. We developed a 2.5-dimensional MHD code including the effects of heat conduction, chromospheric evaporation, and radiation cooling. It is applied to simulate a solar flare. Summary

Download ppt "Magnetic Reconnection in Flares Yokoyama, T. (NAOJ) Reconnection mini-workshop 2002.7.9. Kwasan obs. Main Title 1.Introduction : Reconnection Model of."

Similar presentations

Masuda Flare: Remaining Problems on the Looptop Impulsive Hard X-ray Source in Solar Flares Satoshi Masuda (STEL, Nagoya Univ.)

Masuda Flare: Remaining Problems on the Looptop Impulsive Hard X-ray Source in Solar Flares Satoshi Masuda (STEL, Nagoya Univ.)
RHESSI observations of LDE flares – extremely long persisting HXR sources Mrozek, T., Kołomański, S., Bąk-Stęślicka, U. Astronomical Institute University.

RHESSI observations of LDE flares – extremely long persisting HXR sources Mrozek, T., Kołomański, S., Bąk-Stęślicka, U. Astronomical Institute University.
1 / 22 Solar Flares and Magnetic Reconnection T. Yokoyama (NAOJ) Solar-B science meeting 2003.2.3-5. ISAS, NAOJ.

1 / 22 Solar Flares and Magnetic Reconnection T. Yokoyama (NAOJ) Solar-B science meeting ISAS, NAOJ.
Observations on Current Sheet and Magnetic Reconnection in Solar Flares Haimin Wang and Jiong Qiu BBSO/NJIT.

Observations on Current Sheet and Magnetic Reconnection in Solar Flares Haimin Wang and Jiong Qiu BBSO/NJIT.
Low-Energy Coronal Sources Observed with RHESSI Linhui Sui (CUA / NASA GSFC)

Low-Energy Coronal Sources Observed with RHESSI Linhui Sui (CUA / NASA GSFC)
TRACE Downflows and Energy Release Ayumi ASAI Kwasan Observatory, Kyoto University Magnetic Reconnection and the Dynamic Sun 9 September, Andrews.

TRACE Downflows and Energy Release Ayumi ASAI Kwasan Observatory, Kyoto University Magnetic Reconnection and the Dynamic Sun 9 September, Andrews.
Science With the Extreme-ultraviolet Spectrometer (EIS) on Solar-B by G. A. Doschek (with contributions from Harry Warren) presented at the STEREO/Solar-B.

Science With the Extreme-ultraviolet Spectrometer (EIS) on Solar-B by G. A. Doschek (with contributions from Harry Warren) presented at the STEREO/Solar-B.
Non-Equilibrium Ionization Modeling of the Current Sheet in a Simulated Solar Eruption Chengcai Shen Co-authors: K. K. Reeves, J. C. Raymond, N. A. Murphy,

Non-Equilibrium Ionization Modeling of the Current Sheet in a Simulated Solar Eruption Chengcai Shen Co-authors: K. K. Reeves, J. C. Raymond, N. A. Murphy,
X-Ray Observation and Analysis of a M1.7 Class Flare Courtney Peck Advisors: Jiong Qiu and Wenjuan Liu.

X-Ray Observation and Analysis of a M1.7 Class Flare Courtney Peck Advisors: Jiong Qiu and Wenjuan Liu.
Measuring the Temperature of Hot Solar Flare Plasma with RHESSI Amir Caspi 1,2, Sam Krucker 2, Robert P. Lin 1,2 1 Department of Physics, University of.

Measuring the Temperature of Hot Solar Flare Plasma with RHESSI Amir Caspi 1,2, Sam Krucker 2, Robert P. Lin 1,2 1 Department of Physics, University of.
Modeling the Neupert Effect in Flares: Connecting Theory and Observation Andrea Egan Advisors: Dr. Trae Winter and Dr. Kathy Reeves.

Modeling the Neupert Effect in Flares: Connecting Theory and Observation Andrea Egan Advisors: Dr. Trae Winter and Dr. Kathy Reeves.
RHESSI observations of LDE flares – extremely long persisting HXR sources Mrozek, T., Kołomański, S., Bąk-Stęślicka, U. Astronomical Institute University.

RHESSI observations of LDE flares – extremely long persisting HXR sources Mrozek, T., Kołomański, S., Bąk-Stęślicka, U. Astronomical Institute University.
Reconstructing Active Region Thermodynamics Loraine Lundquist Joint MURI Meeting Dec. 5, 2002.

Reconstructing Active Region Thermodynamics Loraine Lundquist Joint MURI Meeting Dec. 5, 2002.
ABSTRACT This work concerns with the analysis and modelling of possible magnetohydrodynamic response of plasma of the solar low atmosphere (upper chromosphere,

ABSTRACT This work concerns with the analysis and modelling of possible magnetohydrodynamic response of plasma of the solar low atmosphere (upper chromosphere,
Kazunari Shibata Kwasan and Hida Observatories Kyoto University

Kazunari Shibata Kwasan and Hida Observatories Kyoto University
Evolution of Flare Ribbons and Energy Release Rate Ayumi Asai 1,2, T. Yokoyama T. 3, M. Shimojo 2, S. Masuda 4, and K. Shibata 1 1:Kwasan and Hida Observatories,

Evolution of Flare Ribbons and Energy Release Rate Ayumi Asai 1,2, T. Yokoyama T. 3, M. Shimojo 2, S. Masuda 4, and K. Shibata 1 1:Kwasan and Hida Observatories,
Flare Thermal Energy Brian Dennis NASA GSFC Solar Physics Laboratory 12/6/20081Solar Cycle 24, Napa, 8-12 December 2008.

Flare Thermal Energy Brian Dennis NASA GSFC Solar Physics Laboratory 12/6/20081Solar Cycle 24, Napa, 8-12 December 2008.
Multiwavelength observations of a partially occulted solar flare Laura Bone, John C.Brown, Lyndsay Fletcher.

Multiwavelength observations of a partially occulted solar flare Laura Bone, John C.Brown, Lyndsay Fletcher.
Loop-top altitude decrease in an X-class flare A.M. Veronig 1, M. Karlický 2,B. Vršnak 3, M. Temmer 1, J. Magdalenić 3, B.R. Dennis 4, W. Otruba 5, W.

Loop-top altitude decrease in an X-class flare A.M. Veronig 1, M. Karlický 2,B. Vršnak 3, M. Temmer 1, J. Magdalenić 3, B.R. Dennis 4, W. Otruba 5, W.
The Relation between Soft X-ray Ejections and Hard X-ray Emission on November 24 Flare H. Takasaki, T. Morimoto, A. Asai, J. Kiyohara, and K. Shibata Kwasan.

The Relation between Soft X-ray Ejections and Hard X-ray Emission on November 24 Flare H. Takasaki, T. Morimoto, A. Asai, J. Kiyohara, and K. Shibata Kwasan.

Similar presentations

Ads by Google