Group 1: Solar Activity and Space Weather Monitoring - A significant geomagnetic storm occurred from June 1 to June 2, triggered by solar activity on May 31, with a duration of 6 hours [1] - The primary cause of this geomagnetic activity was coronal mass ejection, a major form of solar eruption [1] - Monitoring and forecasting space weather is crucial for the stable operation of satellites, communication, navigation, and power systems [1] Group 2: Dark Matter Research - Researchers from the Xinjiang Astronomical Observatory and the State University of Rio de Janeiro discovered special effects induced by dark photons within the framework of Einstein-Cartan-Horava gravity theory [2] - The Barbero-Immirzi (BI) parameter, a key parameter in loop quantum gravity theory, was measured, which may influence the generation and propagation of gravitational waves [2] - The study of the BI parameter could provide insights into the potential connections between dark matter and dark energy, offering new approaches to understanding these cosmic mysteries [2] Group 3: Planetary Exploration - The Tianwen-2 probe was successfully launched, with the primary mission to explore and sample asteroid 2016 HO3, followed by scientific exploration of main belt comet 311P [3] - The mission is expected to reach distances between 150 million to 500 million kilometers from Earth, aiming to expand scientific knowledge of small celestial bodies [3]

Core Viewpoint - The article discusses a recent solar flare event that occurred on May 31, which is expected to lead to geomagnetic storms on Earth, particularly in northern regions where auroras may be visible. The event is part of a natural cycle of solar activity that peaks approximately every 11 years, with the current cycle expected to continue through 2025 [1][6]. Group 1: Solar Flare and Its Effects - A solar flare classified as M8.1 occurred on May 31, with a rapid increase in soft X-ray flux [2]. - The solar flare was accompanied by a coronal mass ejection (CME), which is expected to impact Earth and potentially cause geomagnetic storms [4]. - The geomagnetic storms are anticipated to occur from June 1 to June 3, with a possibility of small storms on June 3 if no new flares occur [4]. Group 2: Geomagnetic Storms and Human Impact - Geomagnetic storms are caused by solar activity and result in significant disturbances in Earth's magnetic field [9]. - The storms can interfere with satellite communications and navigation systems, but they do not pose any health risks to humans [9]. - The most noticeable effect for the general public will be the potential for vibrant auroras in high-latitude regions [9]. Group 3: Solar Activity Cycle - The current solar activity cycle, which began in 2019, is entering its peak phase, with increased solar events expected through 2025 [6]. - The article emphasizes that solar flares and geomagnetic storms are normal natural phenomena [7].

Core Viewpoint - A solar flare occurred on May 31, with potential geomagnetic storms affecting Earth for three consecutive days, particularly in northern China where auroras may be visible [1][3]. Group 1: Solar Activity - The solar activity region 14100 erupted, producing an M8.1 class medium flare, with soft X-ray flux peaking at 8:05 AM [3]. - Accompanying the flare was a coronal mass ejection, creating a shockwave that will propagate through the solar system [3]. - If no new flares occur on June 1 and 2, a minor geomagnetic storm is expected on June 3 [3]. Group 2: Solar Cycle and Predictions - Solar activity follows an approximately 11-year cycle, with the current 25th solar cycle having started in 2019 and now entering its peak year [5]. - The years 2024 and 2025 are anticipated to be high activity periods, likely resulting in more solar flares and geomagnetic storms [5]. Group 3: Effects of Geomagnetic Storms - Northern China may experience noticeable auroras, including red-green composite auroras [6]. - Geomagnetic storms do not significantly impact human health, although sensitive individuals may experience anxiety or sleep disturbances [7]. - Geomagnetic storms can disrupt communication, navigation, and satellite operations, affecting devices like smartphones and vehicles [7].

Core Points - A solar flare occurred on May 31, with a peak intensity of M8.1, indicating a moderate level of solar activity [2] - The solar activity is expected to cause geomagnetic storms on Earth for three consecutive days, with a possibility of auroras in northern regions of China [1][4] - The current solar cycle, which began in 2019, is at its peak phase, with increased solar activity anticipated through 2024 and 2025 [6] Summary by Category - **Solar Activity** - The solar flare originated from active region 14100, with soft X-ray flux rapidly increasing and peaking at M8.1 [2] - Accompanying the flare was a coronal mass ejection, creating a shockwave that propagates through the solar system [2] - **Geomagnetic Storms** - Earth is likely to experience geomagnetic storms due to the direct impact of the coronal mass ejection, with potential small storms expected on June 3 if no new flares occur [4] - Geomagnetic storms can disrupt satellite communications and navigation systems, but they do not pose health risks to humans [6] - **Auroras** - There is a forecast for visible auroras in northern China, with some areas potentially experiencing red-green composite auroras [6] - The phenomenon of auroras is a direct result of geomagnetic storms affecting high-latitude regions [6]