forecast of geomagnetic storm based on cme and ip condition r.-s. kim 1, k.-s. cho 2, y.-j. moon 3,...
TRANSCRIPT
![Page 1: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/1.jpg)
Forecast of Geomagnetic Storm based on CME and IP condition
R.-S. Kim1, K.-S. Cho2, Y.-J. Moon3, Yu Yi1, K.-H. Kim3
1Chungnam National University2Korea Astronomy and Space Science Institute3Kyunghee University
IHY WB 2-3 Sep. 23, 2009
![Page 2: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/2.jpg)
Geomagnetic storm
What is a geomagnetic storm? Disturbances in the geomagnetic
field caused by gusts in the solarwind that blows by Earth.
Large negative perturbations of Dst index are indicative of a geomagnetic storm.
Causes of a geomagnetic storm Main origin: Coronal Mass ejection (CME)
Circumstance: Interplanetary condition
2
![Page 3: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/3.jpg)
Forecast of geomagnetic storm
Forecasts of a geomagnetic storm based on, IP condition for urgent warning
CME parameters for 2~3 days early warning
We use a two-step prediction for the storm forecast capability.
3
![Page 4: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/4.jpg)
CME and geomagnetic storm
4
What parameters of CMEs control their geoeffectiveness? Only a small portion of the CMEs result in the geomagnetic
storms.
For front-side and large angular width events (1997~2003),
Source location (L) Earthward direction (D)
Initial speed (V) Magnetic field orientationof CME source region (M)
![Page 5: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/5.jpg)
5
Speed The CME speeds are roughly
correlated with the strength
of geomagnetic storms, but
even slow CMEs can trigger
geomagnetic storms.
Geoeffectiveness of CME parameters
Location The source locations of
geoeffective CMEs are
asymmetrical in longi-tude.
The offset 15° to the west gives the best
results.
Dst vs. distance from the offset
![Page 6: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/6.jpg)
6
Magnetic field orientation |Θ| ≤ 90° southward |Θ| > 90° northward
All CMEs associated with the super storms (Dst ≤ -200
nT) have southward mag-
netic field orientations.
Direction parameter The ratio of distance between
the shorter CME front and
the solar center to that of
the longer CME front. The direction parameter has
better correlation than the
other parameters.
Geoeffectiveness of CME parameters
![Page 7: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/7.jpg)
7
Geomagnetic storm prediction model
Comparison of their correlations with the Dst index
Direction parameter has the best correlation, but magnetic field orientation has the worst correlation.
We divide the CMEs into two groups according to their magnetic field orientation.
Empirical geomagnetic storm prediction model Formula to predict the geomagnetic storm strength (Dst index)
For southward events, For northward events,
Parameter cc
Location 0.25
Speed -0.29
Direction parame-ter
-0.60
MFO -0.12
![Page 8: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/8.jpg)
8
Evaluation of the storm prediction model
Forecast based on the storm prediction model The relationship between observed Dst index and predicted Dst
index for northward events (cc=0.81) is better than for southward events (cc=0.67).
![Page 9: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/9.jpg)
Evaluation of the storm prediction model
Forecast based on the storm prediction model For 64 halo or partial halo CMEs associated with M and X class so-
lar flares, ‘yes’ prediction: predicted Dst ≤ -50 nT ‘yes’ observation: the occurrence of a geomagnetic storm The mean probability of geomagnetic storm is about 63%
(40/64) and 44 events are correctly forecasted (69%).
To improve the forecast capability of our model, we examine IP condition.
ObservedPredicted Yes No Total
Yes 36 16 52
No 4 8 12
Total 40 24 64
![Page 10: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/10.jpg)
IP Condition of geomagnetic storm
Interplanetary parameters (Echer et al., 2008) What IP parameter has the strongest relation with storm strength
among the IP condition such as the magnetic field, electric field, solar wind speed and dynamic pressure.
Most strong storms (Dst ≤ -100 nT) have peak Bs between 10–20 nT, and peak Ey between 5–10 mV/m.
![Page 11: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/11.jpg)
IP Condition of geomagnetic storm
Gonzalez -Tsurutani empirical criteria (1987) Bs ≥ 10 nT or Ey ≥ 5 mV/m for t ≥ 3 h
For the storms with Dst > -150 nT, 50% of the storms are sat-isfied.
For the storms with Dst ≤ -150 nT, 93% of the stronger storms are satisfied.
Our storm criteria is Dst ≤ -50 nT
We need to modify these criteria.
![Page 12: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/12.jpg)
IP Condition of the 64 CME
Data Interplanetary Bz and Ey
ACE Magnetic Field 1-Hour Level 2 Data (B)
ACE/SWEPAM Solar Wind Experiment 1-Hour Level 2 Data (V)
E=-V×B Ey=-BxVz+BzVx
![Page 13: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/13.jpg)
Bz minimum and Ey maximum
Bz ≤ -5 nT, Ey ≥ 3 mV/m
IP Condition for 64 CME
Duration time of Bz, Ey criteria t ≥ 2h
![Page 14: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/14.jpg)
Forecast using IP criteria
IP criteria We select the criteria for moderate storms (Dst ≤ -50 nT)
Bz ≤ -5 nT or Ey ≥ 3 mV/m for t ≥ 2 h
For 64 events, 90% of the storms are in the IP criteria.
80% are correctly forecasted (51/64) (cf. CME parameter: 69%)
ObservedPredicted
Yes No Total
Yes 36 9 45
No 4 15 19
Total 40 24 64
ObservedPredicted
Yes No Total
Yes 36 16 52
No 4 8 12
Total 40 24 64
![Page 15: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/15.jpg)
Forecast using CME and IP condition
For 64 events CME criteria: storm prediction formulae
IP criteria: Bz ≤ -5 nT or Ey ≥ 3 mV/m for t ≥ 2 hour
CME criteria IP criteria Forecast
YesYes Yes
No No
NoYes No
No No
ObservedPredicted Yes No Total
Yes 32 5 37
No 8 19 27
Total 40 24 64
80% are correct
CME criteria IP criteria Forecast
YesYes Yes
No Yes
NoYes Yes
No No
ObservedPredicted Yes No Total
Yes 40 20 60
No 0 4 4
Total 40 24 64
69% are correct
![Page 16: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/16.jpg)
16
Conclusions
Empirical geomagnetic storm prediction model Formulae to predict the geomagnetic storm strength (Dst index)
based on CME parameters For southward events, For northward events,
Empirical IP criteria For more better forecasts, we consider the IP conditions, since the
CME characteristics can change during its propagation.
Our empirical IP criteria: Bz ≤ -5 nT or Ey ≥ 3 mV/m for t ≥ 2 h 90% of the storms satisfy the IP criteria. For 20 exceptional events, 15 cases can be explained by the
IP conditions.
Forecast using CME and IP conditions We found that all geomagnetic storms occur when the CME condi-
tions or IP conditions are satisfied.
![Page 17: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/17.jpg)
17
CME parameters
Earthward direction parameter (D)
Advantages The direction parameter can be directly estimated from the
coronagraph observation
it can reduce the ambiguity of location caused by occulting disk.
It includes both of the CME propagation and angular effect of cone model.
![Page 18: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/18.jpg)
18
CME parameters
Magnetic field orientation angle θ (Song et al., 2006)
Magnetic reconnections between southward interplanetary mag-netic field and the northward directed geomagnetic field occur at the day side of magnetopause and then transport energy from the solar wind into the magnetosphere.
If we assume that the magnetic field orientation of a CME is pre-served during its interplanetary transit to Earth, we can expect that a CME with southward field orientation will cause a geomag-netic storm.
![Page 19: Forecast of Geomagnetic Storm based on CME and IP condition R.-S. Kim 1, K.-S. Cho 2, Y.-J. Moon 3, Yu Yi 1, K.-H. Kim 3 1 Chungnam National University](https://reader035.vdocuments.site/reader035/viewer/2022062309/5697bf8a1a28abf838c8a8ee/html5/thumbnails/19.jpg)
Forecast using IP condition
Limitation of the forecast using CME parameter We assumed that,
The effective acceleration ceases at some distance less than 1 AU and then CME travels with a constant speed to Earth (Gopalswamy et al, 2001).
The direction of the CME propagation (at C2 or C3 region) does not change through its travel to the Earth.
The magnetic field orientation of ICME has the same direction as in the CME source region.
The changes of CME characteristics increase the ambiguity in the storm forecast.
We used the plane-of-the-sky speed Error in predicted storm oc-currence time.
We use the IP condition to increase the storm forecast capabil-ity.