新华鲜报|首次发现高能宇宙线新来源！“拉索”成果又上新

Core Insights - The LHAASO (Large High Altitude Air Shower Observatory) has made a significant discovery regarding microquasars, which are powerful particle accelerators formed by the interaction of black holes and companion stars, capable of accelerating cosmic rays to energies above the "knee" threshold, providing crucial observational evidence for the role of black holes in the origin of cosmic rays [1][6]. Group 1: Discovery and Research Findings - The latest research led by the Institute of High Energy Physics of the Chinese Academy of Sciences has been published in international academic journals, indicating that microquasars can accelerate cosmic rays to high energies [1][2]. - LHAASO has captured ultra-high-energy gamma-ray signals from five microquasars, revealing that the particle energies producing these gamma rays are located in the "knee" region of the cosmic ray energy spectrum [6][4]. - This discovery suggests that there are multiple types of particle accelerators in the Milky Way, with microquasars having a significantly higher acceleration limit than supernova remnants, thus becoming a new source of high-energy cosmic rays [6][4]. Group 2: Understanding Cosmic Rays - Cosmic rays are charged particles from outer space, primarily composed of various atomic nuclei, and are considered messengers of cosmic events [4]. - The energy spectrum of cosmic rays shows a critical turning point at approximately 30 trillion electron volts, where the number of cosmic rays suddenly decreases, referred to as the "knee" [4]. - Previous theories suggested that cosmic rays originated from supernova remnants, but observations indicate that these remnants struggle to accelerate particles to energies above the "knee" [4][6]. Group 3: Implications of the Findings - The findings from LHAASO not only address the long-standing mystery of the formation of the cosmic ray "knee" but also link this structure to specific celestial bodies, namely black hole jet systems, opening new avenues for understanding extreme physical processes in the universe [6][7]. - LHAASO continues to contribute to scientific endeavors, expanding the boundaries of human knowledge with globally impactful breakthroughs [7].