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Prediction for CME (2023-07-31T23:12:00-CME-001)

CME Observed Time: 2023-07-31T23:12Z
iSWAS Layout URL: https://kauai.ccmc.gsfc.nasa.gov/DONKI/view/CME/26278/-1
CME Note: Faint CME seen as a partial halo to the SW in SOHO LASCO C2, C3, and STEREO A COR2 imagery. This feature overlaps multiple CME fronts to the SW. The source appears to be the southern portion of a large North-South s-shaped filament eruption along the central meridian of the Earth-facing disk. The southern portion of this filament appears to potentially lift off at about 2023-07-31T19:05Z roughly centered around S22E02. The northern portion of the filament eruption may be associated with another CME feature seen in the coronagraphs to the East. Arrival signature: Rapid magnetic field enhancement from 10 nT to 15-16 nT starting around 2023-08-04T06:52Z with simultaneous increases in solar wind velocity and temperature parameters. Possibly merged with 2023-07-31T23:36Z CME.
CME Shock Arrival Time: 2023-08-04T06:52Z
Observed Geomagnetic Storm Parameters due to CME:
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Predicted Arrival Time: 2023-08-04T07:03Z (-5.0h, +7.0h)
Confidence that the CME will arrive: 100.0%
Predicted geomagnetic storm max Kp range due to CME: 3.0 - 5.0
Prediction Method: Ensemble WSA-ENLIL + Cone (NASA M2M)
Prediction Method Note:

Ensemble modeling estimates the spread/uncertainty in CME arrival time predictions using the WSA-ENLIL+Cone model due to uncertainties in CME input parameters.  This is achieved by measuring N CME input parameters, then performing an ensemble of N runs of WSA-ENLIL cone model.  This gives an ensemble of N CME arrival times and impact estimates.

NASA GSFC SWRC ENLIL settings:
ENLIL version: 2.7
Resolution: low2 (256x30x90)
Ambient settings: a3b1f
WSA version: 2.2
(Enlil 2.7 w/res:low2 ambient:a3b1f, WSA2.2)


## Community Coordinated Modeling Center Database Of Notifications, Knowledge, Information ( CCMC DONKI )
## Message Type: Space Weather Notification - CMEs update (ensemble) (OSIRIS-REx, Parker Solar Probe, STEREO A, Missions Near Earth)
##
## Message Issue Date: 2023-08-03T19:39:57Z
## Message ID: 20230803-AL-002
##
## 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:

BETA PRODUCT. ENSEMBLE PRODUCT IS STILL IN DEVELOPMENT MODE. PLEASE LET US KNOW IF YOU HAVE ANY SUGGESTIONS FOR MODIFICATIONS.  

Ensemble modeling update on CMEs with IDs 2023-07-31T23:36:00-CME-001, 2023-08-01T00:12:00-CME-001, and 2023-07-31T23:12:00-CME-001 (see previous notification 20230801-AL-002). Based on analysis by the Moon to Mars Space Weather Analysis Office and heliospheric ensemble modeling carried out at the Community Coordinated Modeling Center, it is estimated that the CMEs may impact STEREO A. For 24 ensemble members (see notes section), simulations indicate that the leading edge of the CMEs will reach STEREO A between about 2023-08-03T19:10Z and 2023-08-04T10:35Z (average arrival 2023-08-04T01:32Z) for 100% of simulations.

Additionally the CMEs are estimated to reach NASA missions near Earth between about 2023-08-04T00:53Z and 2023-08-04T16:30Z (average arrival 2023-08-04T07:03Z) for 100% of simulations.  The ensemble-based forecast indicates that there is a 87% chance for the maximum Kp index to be in the 3-5 range (below minor to minor).

Links to the ensemble details of the modeled event:
https://iswa.gsfc.nasa.gov/ENSEMBLE/2023-07-31_ncmes3_sims24_LAHAINA037/20230731_233600_ncmes3_sims24_LAHAINA037_anim_tim-den.gif
https://iswa.gsfc.nasa.gov/ENSEMBLE/2023-07-31_ncmes3_sims24_LAHAINA037/20230731_233600_ncmes3_sims24_LAHAINA037_arrival_Earth.gif
https://iswa.gsfc.nasa.gov/ENSEMBLE/2023-07-31_ncmes3_sims24_LAHAINA037/20230731_233600_ncmes3_sims24_LAHAINA037_Earth_stack.gif
https://iswa.gsfc.nasa.gov/ENSEMBLE/2023-07-31_ncmes3_sims24_LAHAINA037/20230731_233600_ncmes3_sims24_LAHAINA037_arrival_STA.gif
https://iswa.gsfc.nasa.gov/ENSEMBLE/2023-07-31_ncmes3_sims24_LAHAINA037/20230731_233600_ncmes3_sims24_LAHAINA037_STA_stack.gif

## Notes:
Previous simulation of these CMEs (see notification 20230801-AL-002) estimated that the CMEs may also affect OSIRIS-REx and Parker Solar Probe, with the leading edge of the CMEs reaching OSIRIS-REx at 2023-08-05T02:42Z and Parker Solar Probe at 2023-08-03T14:36Z (plus minus 7 hours). 

Ensemble CME modeling at M2M is performed by building sets of initial CME parameters and carrying out separate simulations for each set. This approach allows a mapping of initial CME parameter uncertainties into a statistical characterization of CME arrival times and impact at locations of interest.

Description of links: For each location, the first link shows the WSA-ENLIL+Cone model animation for the median CME input parameters, the second link shows the probabilistic distribution of predicted arrival times histogram, and the third link shows a stack plot of the WSA-ENLIL+Cone modeled magnetic field, velocity, density, and temperature for all ensemble members. For missions near Earth, a histogram of the probabilistic Kp forecast is also provided.

For the full details of the modeled event, please go here:
https://iswa.gsfc.nasa.gov/ENSEMBLE/2023-07-31_ncmes3_sims24_LAHAINA037/Detailed_results_20230731_233600_ncmes3_sims24_LAHAINA037.txt

Lead Time: 12.28 hour(s)
Difference: -0.18 hour(s)
Prediction submitted by Anna Chulaki (M2M Office) on 2023-08-03T18:35Z

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If you are looking for the official U.S. Government forecast for space weather, please go to NOAA's Space Weather Prediction Center (https://swpc.noaa.gov). This "Experimental Research Information" consists of preliminary NASA research products and should be interpreted and used accordingly.

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