####018000936####
AXXX82 KWNP 090031

DAYOBS



:Product: Summary of Space Weather Observations dayobs.txt

:Issued: 2024 May 09 0030 UTC

# Prepared by the US Dept. of Commerce, NOAA, Space Weather Prediction Center

# Product description and SWPC contact on the Web

# https://www.swpc.noaa.gov/content/subscription-services

#

#             Summary of Space Weather Observations

#

:Solar_Region_Summary: 2024 May 08

# Region   Location         Sunspot Characteristics

#           Helio                      Spot  Spot  Mag.

# Num   Lat.,CMD  Long.  Area  Extent  class count class

 3663    N26W70     36    400    17     FKC   10     BG

 3664    S19W24    350   1200    20     FKC   62    BGD

 3666    N07W52     18     70     2     HSX    2      A

 3667    N26E20    306    150     3     HSX    1      A

 3668    S15W13    339     30     4     CAO    5      B

 3670    N16E43    282     40     5     CSO    2      B

####018002246####
FXXX10 KWNP 090031

DAYTDF



:Product: 3-Day Forecast

:Issued: 2024 May 09 0030 UTC

# Prepared by the US Dept. of Commerce, NOAA, Space Weather Prediction Center

# Product description and SWPC contact on the Web

# http://www.swpc.noaa.gov/wwire.html

#

#             3-Day Forecast

#

A. NOAA Geomagnetic Activity Observation and Forecast



The greatest observed 3 hr Kp over the past 24 hours was 3 (below NOAA

Scale levels).

The greatest expected 3 hr Kp for May 09-May 11 2024 is 5.67 (NOAA Scale

G2).



NOAA Kp index breakdown May 09-May 11 2024



             May 09       May 10       May 11

00-03UT       1.67         3.33         5.67 (G2)

03-06UT       2.33         4.00         5.33 (G1)

06-09UT       2.00         4.00         5.33 (G1)

09-12UT       2.67         4.33         5.00 (G1)

12-15UT       3.33         4.33         5.00 (G1)

15-18UT       3.67         5.00 (G1)    5.00 (G1)

18-21UT       2.67         5.33 (G1)    4.67 (G1)

21-00UT       2.67         5.33 (G1)    4.67 (G1)



Rationale: G1-2 (Minor-Moderate) geomagnetic storming is likely 10-11

May due to the arrival of CMEs that left the Sun over the course of

07-08 May.



B. NOAA Solar Radiation Activity Observation and Forecast



Solar radiation, as observed by NOAA GOES-18 over the past 24 hours, was

below S-scale storm level thresholds.



Solar Radiation Storm Forecast for May 09-May 11 2024



              May 09  May 10  May 11

S1 or greater   25%     25%     25%



Rationale: A chance for S1 (Minor) solar radiation storms will persist

through the forecast period given the observed activity from AR 3664 in

particular.



C. NOAA Radio Blackout Activity and Forecast



Radio blackouts reaching the R3 levels were observed over the past 24

hours. The largest was at May 08 2024 0141 UTC.



Radio Blackout Forecast for May 09-May 11 2024



              May 09        May 10        May 11

R1-R2           95%           95%           95%

R3 or greater   60%           60%           60%



Rationale: R3 (Strong) radio blackouts due to X-class flares are likely

through the forecast period primarily due to the magnetic complexity and

stature of AR 3634.

####018004209####
FXXX12 KWNP 090031

DAYDIS



:Product: Forecast Discussion

:Issued: 2024 May 09 0030 UTC

# Prepared by the US Dept. of Commerce, NOAA, Space Weather Prediction Center

# Product description and SWPC contact on the Web

# http://www.swpc.noaa.gov/wwire.html

#

#             Forecast Discussion

#

Solar Activity



.24 hr Summary...

Solar activity reached very high levels. Region 3663 (N26W70,

Fkc/beta-gamma) exhibited signs of decay as it approached the western

limb, and appears to be losing its delta configuration. However, this

region continued to produce multiple M-class flares, as well as an X1.0

flare early in the period at 08/0141 UTC, and another X1 flare that

peaked at 08/2140 UTC.



Region 3664 (S19W24, Fkc/beta-gamma-delta) continued to grow and evolve,

eventually merging with Region 3668 (S15W13). This new combined spot

group will maintain the 3664 region designation, and is now over 1,760

millionths in size. This region was responsible for an X1.0 flare at

08/0509 UTC. The X flare was accompanied by Type II and IV sweeps and a

10.7 cm radio burst. A halo CME associated with this event is first

visible in C2 imagery near 08/0600 UTC. Additionally, Region 3664

produced an M8.6 flare at 08/1204 UTC, with an associated CME first

visible in C2 imagery at 08/1224 UTC. Modeling of the two CMEs indicated

that the second CME, with an estimated speed of nearly 800 km/s, will

likely overtake the first CME, which had an estimated speed 715 km/s.

The arrival time of the combined CMEs is anticipated to be late on 10

May to early on 11 May.



The remaining spotted active regions were stable or in gradual decay and

primarily inactive.



Other activity included an approximately 35° long filament that erupted,

centered near E27N18, with an associated CME, mostly moving in a

northeasterly direction. Analysis and modeling of this event is

currently underway.



.Forecast...

Solar activity is expected to persist at high to very high levels over

09-11 May, with M-class flares (R1-R2/Minor-Moderate) expected and

X-class flares (R3/Strong) likely, due to the continued flare potential

of Region 3663 and especially Region 3664.



Energetic Particle



.24 hr Summary...

The greater than 2 MeV electron flux was at normal to moderate levels

and the greater than 10 MeV proton flux was steady at background levels.



.Forecast...

The greater than 2 MeV electron flux is expected to continue at normal

to moderate levels over 09-11 May. There is a chance for the greater

than 10 MeV proton flux to reach S1 (Minor) storm levels over 09-11 May

due to the flare potential of Regions 3663 and 3664.



Solar Wind



.24 hr Summary...

The solar wind environment reflected near-background conditions, with

the exception of slightly elevated solar wind speeds, likely attributed

to residual CH HSS influence. Total field strength was steady near 3

nT, the Bz component had no significant southward deflections, Phi

remained in a positive orientation, and solar wind speeds averaged near

470 km/s.



.Forecast...

Possible enhancements in the solar wind environment are likely on 09

May, following the anticipated glancing effects of a CME that departed

the Sun on 06 May. Late on 10 May and into 11 May, stronger enhancements

are likely as the two CMEs that departed the Sun on 08 May are

anticipated to arrive at Earth.



Geospace



.24 hr Summary...

The geomagnetic field was at quiet to unsettled levels.



.Forecast...

Mid to late day on 09 May, unsettled to active conditions are possible

as glancing effects from a CME that departed the Sun on 06 May are

anticipated to influence Earth. By late on 10 May, the two halo CMEs

from 8 May are anticipated to arrive at Earth, increasing the

geomagnetic response to G1 (Minor) storm levels. Early on 11 May,

conditions are likely to reach G2 (Mod) storm levels, with a chance for

G3 (Strong) levels, as the bulk of the CME moves past Earth. While

confidence in timing is fairly high, confidence in magnitude/strength of

the geomagnetic response to the CME arrival is low to moderate.