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Prediction for CME (2024-07-27T06:36:00-CME-001)

CME Observed Time: 2024-07-27T06:36Z
iSWAS Layout URL: https://kauai.ccmc.gsfc.nasa.gov/DONKI/view/CME/32245/-1
CME Note: Asymmetric halo CME visible towards the NW in SOHO LASCO C2/C3 and towards the NE in STEREO A COR2. The source is an M3.1 flare from AR 3762 with dimming/EUV wave towards the N/NW starting at 2024-07-27T05:42Z best seen in GOES SUVI 195 and 284 (SDO/AIA has an eclipse shortly after the event starts). The eruption is also visible south of disk center as seen in available EUV imagery. Arrival signature: a likely combined shock of this CME and up to 3 preceding CMEs characterized by a sharp increase in B_total from ~5nT to ~13 and eventually to 15nT, fast fluctuation of magnetic field components, a jump in solar wind speed from 330 to 480 km/s and an increase in density from 6 to above 10 p/cc.
CME Shock Arrival Time: 2024-07-29T23:20Z
Observed Geomagnetic Storm Parameters due to CME:
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Predicted Arrival Time: 2024-07-29T21:09Z (-7.0h, +7.0h)
Predicted geomagnetic storm max Kp range due to CME: 5.0 - 7.0
Prediction Method: WSA-ENLIL + Cone (NASA M2M)
Prediction Method Note:

## Community Coordinated Modeling Center Database Of Notifications, Knowledge, Information ( CCMC DONKI )
## Message Type: Space Weather Notification - CME (Lucy, Parker Solar Probe, STEREO A, Mars, Missions Near Earth)
##
## Message Issue Date: 2024-07-27T20:00:35Z
## Message ID: 20240727-AL-003
##
## Disclaimer: NOAA's Space Weather Prediction Center is the United States Government official source for space weather forecasts. This "Experimental Research Information" consists of preliminary NASA research products and should be interpreted and used accordingly.


## Summary:

C-type CME detected by STEREO A / SOHO. 

Start time of the event: 2024-07-27T06:36Z.

Estimated speed: ~803 km/s.

Estimated opening half-angle: 42 deg.

Direction (lon./lat.): 5/13 in Heliocentric Earth Equatorial coordinates.

Activity ID: 2024-07-27T06:36:00-CME-001

Based on preliminary analysis by the Moon to Mars Space Weather Analysis Office and heliospheric modeling carried out at NASA Community Coordinated Modeling Center, it is estimated that this CME may affect Lucy, Parker Solar Probe, STEREO A, and Mars (glancing blow).  The leading edge of the CME will reach Lucy at 2024-07-31T07:46Z, Parker Solar Probe at 2024-07-28T20:13Z, and STEREO A at 2024-07-29T13:05Z, and the flank may reach Mars at 2024-08-01T06:00Z (plus minus 7 hours). 

The simulation also indicates that the CME may impact NASA missions near Earth. Simulations indicate that the leading edge of the CME will reach NASA missions near Earth at about 2024-07-29T21:09Z (plus minus 7 hours). The roughly estimated expected range of the maximum Kp index is 5-7 (minor to strong).
   
  
Links to the movies of the modeled event (includes CME: 2024-07-27T06:36:00-CME-001):

http://iswa.gsfc.nasa.gov/downloads/20240727_103400_2.0_anim.tim-den.gif
http://iswa.gsfc.nasa.gov/downloads/20240727_103400_2.0_anim.tim-vel.gif
http://iswa.gsfc.nasa.gov/downloads/20240727_103400_2.0_anim.tim-den-Stereo_A.gif
http://iswa.gsfc.nasa.gov/downloads/20240727_103400_2.0_anim.tim-vel-Stereo_A.gif
http://iswa.gsfc.nasa.gov/downloads/20240727_103400_2.0_ENLIL_CONE_timeline.gif
http://iswa.gsfc.nasa.gov/downloads/20240727_103400_2.0_ENLIL_CONE_PSP_timeline.gif
http://iswa.gsfc.nasa.gov/downloads/20240727_103400_2.0_ENLIL_CONE_STA_timeline.gif
http://iswa.gsfc.nasa.gov/downloads/20240727_103400_2.0_ENLIL_CONE_Lucy_timeline.gif
http://iswa.gsfc.nasa.gov/downloads/20240727_103400_2.0_ENLIL_CONE_Mars_timeline.gif


## Notes: 

This CME event (2024-07-27T06:36:00-CME-001) is associated with M3.1 flare from Active Region 13762 (S11W25) with ID 2024-07-27T05:12:00-FLR-001 which peaked at 2024-07-27T05:46Z.


SCORE CME typification system:
S-type: CMEs with speeds less than 500 km/s
C-type: Common 500-999 km/s
O-type: Occasional 1000-1999 km/s
R-type: Rare 2000-2999 km/s
ER-type: Extremely Rare >3000 km/s


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NOAA's Space Weather Prediction Center is the United States Government official source for space weather forecasts. This "Experimental Research Information" consists of preliminary NASA research products and should be interpreted and used accordingly.

Lead Time: 51.33 hour(s)
Difference: 2.18 hour(s)
Prediction submitted by Mary Aronne (M2M Office) on 2024-07-27T20:00Z

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