Northern Lights Expected in the UK This Week Amid Upcoming 'Moderate' Geomagnetic Storm
This week, the UK may experience the Northern Lights due to a moderate geomagnetic storm advancing towards Earth. According to NASA, a solar flare has instigated the National Oceanic and Atmospheric Administration (NOAA) to issue a warning about potential disruptions. As early as Wednesday, this phenomenon might become visible to some residents. This is prepared by SSP.
NASA highlights that some fortunate Brits may witness this stunning light display from their windows. Both NASA and the Met Office anticipate significant geomagnetic activity, with two Coronal Mass Ejections predicted to peak on Wednesday, July 24. This situation could result in auroral displays reaching Northern Ireland and northern England, though visibility might be hampered by a nearly full moon and limited hours of darkness.
SpaceWeatherLive forecasts the storm to reach Level 6 on a scale where nine denotes the highest intensity. The peak activity is expected from Wednesday into Thursday, although this could shift depending on the storm’s development. NOAA emphasizes a high probability of Northern Lights manifestations starting from tomorrow, adding that there could be minor fluctuations in the power grid and colorful lights visible at higher latitudes.
A December flare captured by a NASA telescope was the largest since 2017, triggering one of the most significant solar radio events on record. This extraordinary burst led to widespread radio communication disruptions. Scientists continue to monitor the sunspot region, analyzing the potential for a coronal mass ejection aimed at Earth, which could spark geomagnetic storms and, consequently, the Northern Lights. These flares are electromagnetic emissions from the Sun that, when occurring, can impact Earth's ionosphere in real-time.
Northern Lights generally originate from solar flares in active sunspot regions with intense magnetic fields. These fields sometimes change quickly, releasing accumulated energy as solar flares. The ensuing electromagnetic radiation travels at light speed, impacting Earth's outer atmosphere instantaneously upon observation.