Solaktivitetsrapport

Viewing archive of onsdag, 18 juni 2003

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Any mentioned solar flare in this report has a scaling factor applied by the Space Weather Prediction Center (SWPC). Because of the SWPC scaling factor, solar flares are reported as 42% smaller than for the science quality data. The scaling factor has been removed from our archived solar flare data to reflect the true physical units.

Rapport för sol- och geofysisk aktivitet 2003 Jun 18 2200 UTC
Skapad av NOAA © SWPC och bearbetad av SpaceWeatherLive.com

USAF/NOAA rapport för sol- och geofysisk aktivitet

SDF Nummer 169 publicerat klockan 2200Z på 18 Jun 2003

IA. Analys av solfläcksgrupper och solaktivitet från 17-2100Z till 18-2100Z

Solar activity increased to high levels today. Region 386 (S07E43) produced an M6.8 x-ray flare (correlated using SXI imagery) at 17/2255Z that had an associated Tenflare (2100 sfu), Type IV and Type II radio sweeps (an estimated shock velocity of 1000 km/sec). This region showed growth in the magnetic structure surrounding the dominant lead spot as a delta complex has become evident since yesterday. The penumbral field coverage has changed little over the period. Newly numbered Region 387 (N18E62) produced several minor flares during the interval.

IB. Prognos för solaktivitet

Solar activity is expected to be at moderate to high levels. Region 386 has the potential to produce an isolated major flare.

IIA. Sammanfattning av geofysisk aktivitet 17-2100Z till 18-2100Z

The geomagnetic field was at predominantly minor to major storm levels with an isolated period of severe storm conditions seen at high latitudes between 18/0600 and 0900Z. A co-rotating integrated region preceding a recurrent high speed coronal hole stream and is believed to responsible for the storm conditions. The greater than 10 Mev proton flux at geosynchronous orbit reached event threshold at 18/2050Z and due to the recent activity the exact source for this particle event is not certain.

IIB. Prognos för geofysisk aktivitet

The geomagnetic field is expected to be at predominantly active to minor storm levels due to a recurrent high speed coronal hole stream. Isolated major storm conditions are possible on day one due to the potential for transient activity. The greater than 10 MeV proton event should remain above threshold level through the first day of the interval.

III. Chans för solutbrott från 19 Jun till 21 Jun

M-klass	60%	60%	60%
X-klass	20%	20%	20%
Proton	99%	50%	25%
PCAF	in progress

IV. Penticton 10.7 cm Flux

  Observerad       18 Jun 120
  Prognoserat   19 Jun-21 Jun  120/120/120
  90 Day Mean        18 Jun 125

V. Geomagnetiskt A-index

  Observerad Afr/Ap 17 Jun  030/050
  Förväntat     Afr/Ap 18 Jun  035/050
  Prognoserat    Afr/Ap 19 Jun-21 Jun  025/035-020/025-020/025

VI. Chanser för geomagnetisk aktivitet från 19 Jun till 21 Jun

A. Medelhöga breddgrader
Aktivt	40%	50%	50%
Små stormförhållanden	30%	20%	20%
Svåra stormförhållanden	15%	05%	05%

B. Höga breddgrader
Aktivt	40%	50%	50%
Små stormförhållanden	40%	30%	30%
Svåra stormförhållanden	20%	10%	10%

VII. PLAIN To ensure continued operational monitoring of important energetic particle data, it is necessary to reassign primary/secondary designations for the GOES Space Environment Monitor (SEM) detectors. GOES 11 (113W) will become the primary satellite for protons. The transition from GOES 8 to GOES 11 was scheduled for 18 June, but has been delayed until 19 June. GOES 12 will continue as the primary satellite for magnetometer, X-ray, and electron measurements. GOES 10 (135W) will be the secondary satellite for all SEM sensors - magnetometer, X-ray, and energetic particles. Because of the degraded state of the proton data on GOES-10, its designation as the secondary source for proton data is a short-term solution. More permanent solutions have been identified and are being evaluated. Users will be notified when we define and schedule a permanent fix. Further details can be found at http://www.sec.noaa.gov/GOES.html. MAGNETOMETER On 16 June, it was determined that a scaling problem exists with the Boulder magnetometer instrument. While this problem, and its fix are being investigated the primary instrument for Boulder K-indices has been switched to the Boulder USGS (via Domsat) magnetometer, effective 1500 UTC on 16 June.

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mars 2024	104.9 -19.8
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I dag i historien*

Solutbrott
1	1998	M9.27
2	2024	M3.6
3	2024	M2.5
4	1999	M1.7
5	2003	M1.69

		Ap	G
1	1956	58	G4
2	1952	87	G3
3	1991	59	G3
4	1960	55	G2
5	1973	59	G2

*sedan 1994

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