2023-06-09 01:48:18
Mainland China’s “People’s Daily” user terminal reported that “Science” magazine published online on June 9 the observation of the gamma-ray burst named GRB221009A by the Mainland High Altitude Cosmic Ray Observatory (LHAASO, Chinese abbreviation “Lasuo”) The latest observation and research results: For the first time, Lasso has completely recorded the whole process of the megaelectron-volt gamma-ray burst at the moment of death of a massive star. The team is complete.
About 2 billion years ago, a “super sun” massive star more than 20 times heavier than the sun burned its nuclear fusion fuel, collapsed instantly and triggered a huge explosive fireball, sending out a huge “cosmic fireworks” that lasted hundreds of seconds Gamma ray burst. A large number of MeV high-energy gamma photons produced by the collision between the fireball and the interstellar matter passed through the vast universe, flew straight to the earth, and arrived at the field of view of the “Lasso” at 21:20:50 on October 9, 2022. 6 More than 10,000 gamma photons were collected by “Laso”. After months of analysis, scientists finally lifted the veil of the explosion.
A gamma-ray burst (also abbreviated as a gamma-ray burst) is the most violent celestial explosion phenomenon following the Big Bang. It refers to the flickering phenomenon of gamma rays suddenly enhanced from a certain direction in the sky. Gamma-ray bursts can be as short as a thousandth of a second and as long as hours. Short-duration GRBs are produced by the merger of two nearby compact stars (black holes or neutron stars), while long-duration GRBs are produced by the collapse and explosion of massive stars (superstars) as they run out of fuel.
The details of the signals collected in this search showed that the detected photons originated from the “following explosion” following the “main explosion” of the gamma-ray burst event.
Cao Zhen, chief scientist of the Lasso project, spokesperson of the Lasso International Cooperation Group, and researcher at the Institute of High Energy Physics of the Chinese Academy of Sciences, said: “The ‘main explosion’ is also called transient radiation. It is a huge explosion in the initial stage, manifested as a strong low-energy gamma ray radiation. The collision of explosives close to the speed of light with the surrounding gas produces a “subsequent explosion”, also known as followingglow. For the first time, Lasso accurately observed the complete process of “subsequent explosion”, and recorded a trillion The whole phase of electron volt gamma ray flux enhancement and decay.”
With observations of tens of thousands of gamma-ray bursts, scientists have established a theoretical model that seems perfect, and even believes in it. The cable has realized the textbook-style complete observation of the light change process in the high-energy band that other experiments have not achieved, and provides an experimental basis for the accurate test of the theoretical model.
The GRB221009A gamma-ray burst is the brightest gamma-ray burst ever detected by humans. Scientists infer that the probability of such a bright gamma-ray burst sweeping across the earth is once every 10,000 years. “In view of the rarity of this outbreak, which is rare in ten thousand years, this observation result is expected to remain the best in the next few decades or even hundreds of years.” Cao Zhen said.
“During the subsequent explosion, Lasso detected for the first time the extremely rapid increase in photon flow.” Yao Zhiguo, one of the corresponding authors of the paper and a researcher at the Institute of High Energy Physics, Chinese Academy of Sciences, said.
According to the expectation of previous theoretical models, the growth of the flux of high-energy photons in the subsequent explosion process should be relatively slow and stable. But this time Lasso observed a more than 100-fold increase in the flux of high-energy photons in the early, less than two-second period of the ensuing detonation.
Yao Zhiguo said: Such a rapid enhancement phenomenon in the early stage exceeded the expectations of previous theoretical models. What kind of mechanism exists? The observation results published this time will trigger in-depth discussions in the scientific community on the mechanisms of gamma-ray burst energy injection, photon absorption, and particle acceleration.
The observation results of the cable also showed that the brightness of the high-energy radiation suddenly and rapidly weakened at some point less than 10 minutes following the detonation.
Wang Xiangyu, a professor at Nanjing University and one of the corresponding authors of the paper, said: “This can be explained that the projectile following the explosion is a jet-like structure, and when the radiation angle expands to the edge of the jet, it causes a rapid decrease in brightness.”
Since this brightness transition occurred very early, the opening angle of the jet was measured to be very small, only 0.8 degrees. This is the smallest jet known so far, meaning that what is observed is actually the brightest core of a typical jet with a bright interior and a dark exterior. “It is precisely because the observer happens to be facing the brightest core of the jet, which naturally explains why this gamma-ray burst is the brightest in history, and why such events are extremely rare.” One of the corresponding authors of the paper, China Dai Zigao, a professor at the University of Science and Technology, said.
In addition, during the ten minutes of this gamma-ray burst event, Lasso recorded more photons than the accumulated observations of the “standard candle” Crab Nebula over the past few years.
“If the selection conditions are minimized, the number of photons can reach 100,000!” said Min Cha, one of the corresponding authors of the paper and a researcher at the Institute of High Energy Physics, Chinese Academy of Sciences. Compared with other experimental devices in the same energy zone, even the devices specially designed to track gamma-ray bursts, the number of photons detected by them is only below a thousand, and they all only measured the “followingglow” following 60 seconds following the explosion .
On October 9, 2022, at 21:16:59.59 Beijing time, the Gamma-ray Space Telescope satellite of the United States first detected an unusually bright gamma-ray burst, named GRB221009A according to international practice, followed by dozens of space and ground detectors The outbreak was observed. The Continental High-Altitude Cosmic Ray Observatory, the High Energy Burst Explorer Satellite and the Smart Eye Satellite detected this gamma-ray burst at the same time, realizing the coordinated observation of space and ground with a wide energy range spanning 11 orders of magnitude.
Cao Zhen said: “This gamma-ray burst is a long burst, and its brightness is dozens of times higher than the brightest gamma-ray burst in the past. The excessively high photon flow has saturated the detectors of many international experiments.”
The observation results are mainly provided by Lasso’s water Cherenkov detector array. The observation energy range of the array for gamma rays spans two orders of magnitude, between 100 billion electron volts and ten million electron volts, and has the characteristics of wide field of view and all-weather. The capture observation has outstanding advantages.
After the international warning of GRB 221009A was released, Cao Zhen quickly organized several teams to carry out data analysis and theoretical interpretation. The follow-up joint space-ground data analysis has been fully launched, and more observational research results will be published one following another.
The observation results of this time are of great significance.
Gao He, a professor of the Department of Astronomy at Beijing Normal University, said: “Lasso has lived up to expectations and for the first time has given the complete light curve and energy spectrum of a gamma-ray burst at TeV (note: tera-electron volt) energy. Understanding of the radiation mechanism of gamma-ray bursts and the structure of jets.”
“As of now, there are many other new discoveries in this explosion. Scientists are still working tirelessly on the data of Lasso, trying to reveal more mysteries. Please wait for the follow-up data analysis results of Lasso.” Cao Zhen optimistically expects Pull the results of the next stage.
1686276343
#Mainland #researchers #detected #gammaray #burst #Science #published #onlineCrossStraitChina #Times #News