[Ips-dsgr] ASWFC Daily Report - 01 June 24 issued 0025 UT on 02 Jun 2024 [SEC=OFFICIAL]

ASWFC aswfc at bom.gov.au
Sun Jun 2 10:25:08 AEST 2024 

SUBJ: ASWFC DAILY SOLAR AND GEOPHYSICAL REPORT
ISSUED AT 2330UT/01 JUNE 2024
FROM THE AUSTRALIAN SPACE WEATHER FORECASTING CENTRE
SUMMARY FOR 01 JUNE AND FORECAST FOR 02 JUNE - 04 JUNE
STATUS INDICATORS SOL:** RED **   MAG:GREEN     ION: GREEN
ASWAS SCALE DESCRIPTION: https://bit.ly/3lmaMBx
Reissue due to updated forecast.
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1A. SOLAR SUMMARY
Activity 01 Jun:  R3

Flares    Max     Fadeout    Freq.  Sectors
  X1.4    0848UT  probable   all    Mid East/Indian
  X1.0    1836UT  probable   all    East Pacific/
                                    North American

Observed 10.7 cm flux/Equivalent Sunspot Number for 01 Jun: 179/132


1B. SOLAR FORECAST
             02 Jun             03 Jun             04 Jun
Activity     R2-R3              R2-R3              R2-R3
Fadeouts     Probable           Probable           Probable
10.7cm/SSN   185/138            185/138            185/138

COMMENT: Solar activity on UT day 01-Jun was at the R3 level 
due to an X1.4 flare at 01/0848UT and an X1.0 flare at 01/1836UT. 
Both R3 level flares were produced by AR3697 (S18E16, beta-gamma-delta). 
There are currently nine numbered sunspot regions visible on 
the solar disk and one unnumbered region. AR3697 is the largest 
and most magnetically complex region on the disk. This region 
has shown some decay in its leader spots and mild development 
in its trailer spots. AR3691 (N26W28, beta-gamma) has decayed. 
AR3698 (N23E13, beta) and AR3699 (N04W16, beta) have both exhibited 
spot growth over the UT day. AR3695 (N27W14, beta) has shown 
spot development. Newly numbered regions AR3700 (S04W34, beta) 
and AR3701 (S04E34, beta) recently appeared on the solar disk 
and have both exhibited spot development. An unnumbered region 
is visible rotating over the eastern limb at N16 and appears 
stable. All other sunspot regions are either stable or in decay. 
Solar activity is expected to be at R2-R3 levels over 02-04 Jun. 
A halo CME was observed, visible in LASCO C2 coronagraph imagery 
from 01/1912UT. This CME is possibly associated with the X1.0 
flare from AR3697, however modelling indicates this CME is a 
farside event. Further analysis will be conducted once additional 
coronagraph imagery becomes available. A southwest-directed CME, 
visible in coronagraph imagery from 01/2000UT is currently being 
analysed. No other Earth-directed CMEs have been observed. The 
solar wind speed on UT day 01-Jun mildly declined, ranging from 
330 to 355 km/s and is currently near 340 km/s. The peak total 
interplanetary field strength (IMF, Bt) was 5 nT and the north-south 
IMF component (Bz) range was +3 to -4 nT. The solar wind speed 
is expected to remain at background levels over 02-04 Jun.

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2A. MAGNETIC SUMMARY

Geomagnetic field for Australian Region 01 Jun: G0

Estimated Indices 01 Jun : A   K           
   Australian Region       1   10101100
      Cocos Island         2   10210101
      Darwin               1   10101101
      Townsville           2   11101101
      Learmonth            3   10312100
      Alice Springs        2   11101101
      Gingin               2   20102100
      Canberra             1   10002100
      Kennaook Cape Grim   2   10012100
      Hobart               1   10002100    

Estimated Antarctic Regional K Indices 01 Jun :
      Macquarie Island     2   10202100
      Casey                3   22111100

Observed Regional daily pc3 Indices 01 Jun : 
      Darwin               0   (Quiet)
      Townsville           0   (Quiet)
      Learmonth            0   (Quiet)
      Alice Springs        0   (Quiet)
      Gingin               0   (Quiet)
      Canberra             0   (Quiet)

Pc3 pulsations are high frequency (10-45 second period) variations 
of the Earths magnetic field. Daily pc3-indices are the daily sum 
of 20 minute pc3-indices for that station and have been shown to be
well correlated with rejection of high resolution aeromagnetic
survey flight-line data. 

NOTE: Indices may have been generated from data obtained in 
cooperation with the following organisations: Geoscience Australia, 
University of Newcastle Space Physics Group, Australian Government 
Antarctic Division and International Center for Space Weather 
Science and Education, Japan.


Estimated AFr/Ap Indices 01 Jun : A 
           Fredericksburg       
           Planetary                                     

Observed AFr/Ap Indices 31 May :  A   K
           Fredericksburg       
           Planetary               3522 2222     


2B. MAGNETIC FORECAST 
Date      Ap    Conditions
02 Jun     8    G0
03 Jun     6    G0
04 Jun     6    G0

COMMENT: G0 geomagnetic conditions were observed in the Australian 
and Antarctic regions on UT day 01-Jun. G0 geomagnetic conditions 
are expected over 02-04 Jun.

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3A. GLOBAL HF PROPAGATION SUMMARY
	            Latitude Band
Date        Low            Middle         High 
01 Jun      Normal-fair    Normal         Fair           

PCA Event : No event.

3B. GLOBAL HF PROPAGATION FORECAST
	            Latitude Band
Date        Low            Middle         High 
02 Jun      Normal         Normal         Normal-fair
03 Jun      Normal         Normal         Normal
04 Jun      Normal         Normal         Normal

COMMENT: HF radio communication conditions on UT day 01-Jun were 
mostly normal, with fair conditions at high latitudes. Mostly 
normal HF conditions are expected over 02-04 Jun. Shortwave fadeouts 
are probable.

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4A. AUSTRALIAN REGION IONOSPHERIC SUMMARY


Date   T index
01 Jun   113

Observed Australian Regional MUFs
   Cocos Island Region:
      Near predicted monthly values.
   Niue Island Region:
      Near predicted monthly values during local day.
      Depressed by 20% during local night.
   Northern Australian Region:
      Near predicted monthly values during local day.
      Depressed by 25% during local night.
   Southern Australian Region:
      Near predicted monthly values.
   Antarctic Region (Casey/Davis/Mawson):
      Depressed by 20% over the UT day.

Monthly T index:
Month  T index
May      121
Jun      116
Jul      117

4B. AUSTRALIAN REGION IONOSPHERIC FORECAST
Date   T index  MUFs
02 Jun   105    Near predicted monthly values
03 Jun   105    Near predicted monthly values
04 Jun   105    Near predicted monthly values

COMMENT: ASWFC SWF HF Communications Warning 59 was issued on 
31 May and is current for 1-3 Jun. Maximum usable frequencies 
(MUFs) in the Australian region on UT day 01-Jun were generally 
near predicted monthly values, with northern Australian region 
MUFs 25% depressed during local night hours. Spread F was observed 
at Hobart and Canberra during local night hours. MUFs are expected 
to be near predicted monthly values over 02-04 Jun. Shortwave 
fadeouts are probable.

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5. SPACE ENVIRONMENT SUMMARY

GOES satellite data for 31 May
       Daily Proton Fluence >1 MeV:   1.2E+06
       Daily Proton Fluence >10 MeV:  1.6E+04
       Daily Electron Fluence >2 MeV: 1.80E+06   (normal fluence)
Electron Fluence Daily Deep Dielectric Discharge Probability: 1%
Fluence (flux accumulation over 24hrs)/ cm2-ster-day.
       X-ray background: C1.5

DSCOVR Satellite Solar Wind Day Averaged Data for 31 May
Speed: 358 km/sec  Density:    3.4 p/cc  Temp:    37000 K  Bz:  -3 nT

(Courtesy Space Weather Prediction Center, Boulder USA)
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Australian Space Weather Forecasting Centre
Bureau of Meteorology
ASWFC at bom.gov.au
www.bom.gov.au | www.sws.bom.gov.au

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