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Codzienne wiadomości na temat aktywności słonecznej i geomagnetycznej z SIDC

Odnotowany: 2023 Jul 16 1245 UTC

Prognoza SIDC

Rozbłyski słoneczne

M-class flares expected (probability >=50%)

Geomagnetyzm

Quiet (A<20 and K<4)

Monitoring przepływu protonów

Warning condition (activity levels expected to increase, but no numeric forecast given)

	strumień 10cm	Ap
16 Jul 2023	177	006
17 Jul 2023	175	005
18 Jul 2023	172	011

Aktywne obszary słoneczne i rozbłyski

Solar flaring activity over the past 24 hours remained at moderate levels with an impulsive M1.1-flare, start time 08:16 UTC, peak time 08:26 UTC, end time 08:30 UTC on July 16th. The flare was produced by NOAA AR 3372 (beta-gamma-delta), which together with NOAA AR 3363 (beta-gamma-delta) remain the two largest and most complex active regions on the visible solar disc responsible for most of the flaring activity over the past 24 hours. Another notable flaring activity was an impulsive C8.8 flare with peak time at 20:01 UTC on July 15th produced by NOAA AR 3363. The flare was accompanied by a partial halo coronal mass ejection and type IV radio burst, triggering increase in the energetic proton particle fluxes. Some low C-class flaring was produced by NOAA AR 3373 (beta) and NOAA AR 3374 (alpha). NOAA AR 3367 (beta) has now rotated behind the west limb. The remaining active regions were quiet and stable. The solar flaring activity is likely to remain at moderate levels over the coming days with low chances for isolated X-class flaring.

Koronalny wyrzut masy

The faint partial halo coronal mass ejection (CME) observed in LASCO/C2 coronagraph imagery at 19:10 UTC on July 14th and related to an on-disc filament eruption and C8.8 flaring from plage region NOAA AR 3370 remains difficult to analyse due to lack of STEREO COR2 data and overlapping surrounding events. A glancing blow from it could arrive at Earth on July 18th. Another partial halo CME was observed in LASCO/C2 coronagraph data at 20:06 UTC on July 15th. The CME is related to a C8.8 flaring from NOAA AR 3363 (beta-gamma-delta). The CME was associated with a type IV radio burst and triggered a minor radiation storm between 06:05 UTC and 09:05 UTC on July 16th. The bulk of the CME is expected to miss Earth and a rather weak glancing blow could be expected late on July 18th. A full halo CME was detected in LASCO/C2 coronagraph data at 04:49 UTC on July 16th. This event is deemed back-sided with no expected impact at Earth. No other Earth-directed CMEs have been detected in the available coronagraph imagery.

Dziury koronalne

A narrow negative polarity coronal hole is currently residing on the central meridian, but appears too small and weak to produce any observed high speed stream at Earth.

Wiatr słoneczny

Over the past 24 hours the solar wind parameters (ACE and DSCOVR) appear to have returned to background slow solar wind levels. There was no sign of the expected high speed stream arrival from a negative polarity coronal hole and it is no longer expected to arrive. The interplanetary magnetic field was stable with value around 7 nT. The Bz component was weak with minimum value of -5 nT. The orientation of the interplanetary magnetic field has been solely in the negative sector (directed towards the Sun). The solar wind density registered in both ACE and DSCOVR satellites has decreased to below 1 ppc making the estimations of the velocity and temperature currently untrustworthy. Background slow solar wind conditions are expected to continue throughout July 16th and July 17th with possible further enhancements on July 18th pending anticipated possible high speed stream and mixed glancing blow arrivals.

Geomagnetyzm

The geomagnetic conditions over the past 24 hours were quiet to unsettled. Mostly quiet geomagnetic conditions with isolated unsettled periods are expected over the next two days before possible weak high speed stream and glancing blow arrivals on July 18th.

Poziomy przepływu protonów

Over the past 24 hours the greater than 10 MeV GOES proton flux levels registered a minor radiation storm between 06:05 UTC and 09:05 UTC on July 16th. The radiation storm was related to the partial halo CME observed in the coronagraph imagery at 20:06 UTC on July 15th and accompanied by a type IV radio burst. The greater than 10 MeV proton flux levels are now decreasing, currently below 3 pfu. The greater than 50 MeV proton flux has shown only slightly elevated levels and is currently back to background levels. The greater than 100 MeV proton flux levels remained at background levels throughout the event. The radiation storm was also registered in the energetic proton particle fluxes measured at STEREO. The greater than 10 MeV GOES proton flux is expected to decrease towards background levels, but further enhancements remain possible over the next days with the enhanced solar eruptive activity.

Strumienie elektronów na orbicie geostacjonarnej

The greater than 2 MeV electron flux as measured by GOES 16 and GOES 18 was well below the 1000 pfu threshold. The greater than 2 MeV electron flux is expected to be below the 1000 pfu threshold in the upcoming days. The 24h electron fluence was at nominal levels and is expected to remain so over the next days.

Dzisiejsza szacunkowa międzynarodowa liczba plam na Słońcu (ISN): 160, na podstawie 17 stacji.

Indeksy solarne na 15 Jul 2023

Liczba Wolfa z Katanii	///
Fale radiowe 10,7 cm	179
AK Chambon La Forêt	012
AK Wingst	008
Szacunkowa Ap	009
Szacowana międzynarodowa liczba plam słonecznych	134 - Na podstawie stacji 21

Podsumowanie wydarzeń godnych uwagi

Dostarczone przez Centrum Analizy Danych Wpływów Słonecznych© - SIDC - Przetworzone przez SpaceWeatherLive

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