Nasal The lunar X-ray observatory has detected a huge X-ray jet from the Quasser J1610+1811, which has been seen at a distance of about 11.6 billion light-year (about 3 billion years later). The jet extends over 300,000 light-year and carries the particles moving at about 92–98% of the speed of light. It appears in X-rays because high-energy electrons in jet collide with very intensive cosmic microwave backgrounds in that era, which increases microwave photons in X-rays energy. These results were presented at the 246th AAS meeting and accepted for publication in the astrophysical journal.
Search for X-ray jet
As StudyChandra’s high-resolution X-ray imaging, combined with radio data, allowed the team to separate the jet at such a large distance. At a distance of Quasser (about 3 billion years later of Big Bang), the cosmic microwave background was very dense. As a result, relativeistic electrons in jet scattered CMB photons efficiently for X-ray energies. Researchers estimated that jet particles are proceeding at about 0.92–0.98 C from multiculture data. Such close-and-adventies are the fastest known.
These powerful jets carry heavy energy in the intergactic space And provide a unique investigation of how Black Hole influenced its surroundings during the “cosmic afternoon” era of the universe.
Chandra’s future at risk
However, the lunar mission is now facing possible defects: NASA’s proposed budget called for a huge cut in its operating funds. For about 25 years, Chandra has been the cornerstone of X-rays AstronomyTherefore, its loss will be a big shock. The Savechandra campaign has warned that losing the Chandra will be a “extinct event” for us an X-ray astronomy. Scientists have warned that ending Chandra ahead of time will cripple X-ray science.
Andrew fabian Comment Science magazine, “I am afraid of the possibility of lunar being closed prematurely”. Elisa costantini couple In an interview with science that if the cuts move forward, you will lose a whole generation “and it will leave” a hole in our knowledge “of high-energy astronomy physics. Without the capabilities of the lunar, many studies of the energetic universe will no longer be possible.