A research on violent atmospheric phenomena by the University of Valencia, in the cover of the scientific journal Science

  • Scientific Culture and Innovation Unit
  • January 13rd, 2020
 
Image of the Earth from the Space Station where the light flashes of the rays of the thunderstorm can be seen, one of which has a jet of high energy particles (the TGF) and associated with them a circular ring corresponding to the associated TLE. @Science
Image of the Earth from the Space Station where the light flashes of the rays of the thunderstorm can be seen, one of which has a jet of high energy particles (the TGF) and associated with them a circular ring corresponding to the associated TLE. @Science

An international research involving the University of Valencia (UV) that has shown the correlation between high energy gamma burst and the development of thunderstorms at the milliseconds is on the cover of the prestigious scientific journal Science in this week issue. The research addresses two violent atmospheric phenomena observed by the International Space Station (ISS), in which ultraviolet, optical and high energy emission were captured together.

“It is the association between the Terrestrial Gamma Ray Flashes (TGF), undoubtedly the most violent phenomena in the Earth’s atmosphere, with the so-called Transiente Luminous Events (TLE) observed in the optical and for the first time also in the ultraviolet one”, said Victor Reglero, director of the Image Processing Laboratory (IPL) of the University of Valencia and third signer of the article «A terrestrial gamma-ray flash and ionospheric ultraviolet emissions powered by lightning».

“With the high-energy Imaging system developed at the University of Valencia, the positions of all the events have been determined simultaneously. This closure of the problem is what has led Science to consider the discovery worthy of taking the cover of the first issue of 2020. It is a great honour”, said Victor Reglero.

The cover of the magazine, according to the University researcher, shows the earth –in which there is a bright ray in the clouds –from which a stream of high-energy particles propagates into space. The back lightning launches an electromagnetic pulse, which induces an ultraviolet emission (ELVE), represented by the radiation ring rising and expanding along with the gamma rays. Science has also released a video where you can see this phenomenon.

Hitherto there were theories that indicated this correlation, based on observations from satellites or from Earth but not simultaneous. Establishing this relationship has been possible for the first time by having an ASIM instrumental set, which covers the hardest gamma rays from the optician through the ultraviolet spectrum. The results show that the flash of terrestrial gamma rays (TGF) was produced by high-energy fields produced just before a lightning bolt within the thunderstorm cloud that occurs milliseconds after the start of the lightning, key to the formation of the TGF. The subsequent lightning released an electromagnetic pulse, which induced an ultraviolet emission (ELVE) visible above the storm and shaped like a dark disk of radiation that reaches the ionosphere.

These results help to reveal the process by which the flashes of terrestrial gamma rays (TGF) are generated from thunderstorms, and the connection between gamma rays, electromagnetic phenomena in the upper part of the atmosphere and the radiation produced by storms.

“The correlation is not only temporary, but also in the position of events in the atmosphere thanks to the Imaging Gamma system developed by the UV and INTA teams”, said Víctor Reglero, also a professor in the Department of Astronomy and Astrophysics of the University of Valencia, who states that these are “new and little known phenomena that show the most violent aspects of the Earth’s atmosphere and have a potential impact on the Global Electric Circuit of the Earth”.

 

Equipment developed by the University of Valencia

ASIM (The Atmosphere Space Interactions Monitor) is an instrument created by the European Space Agency (ESA) and NASA, which has been operating for a year and a half from the ISS. It was developed through an international project in which the University of Valencia, the Technical University of Denmark and the University of Bergen collaborated between 2005 and 2018. With its implementation it was intended to detect TGF, very violent discharges of High Energy X and Gamma of very short duration (0.001 second) and very scarce (one or two per day are detected) comparing to normal rays that are between 1-4 million per day.

Although the scientific community knows well and is familiar with the electric rays that break the sky under storm clouds, other types of light phenomena are known to occur above storm clouds in the upper atmosphere of the Land. ELVEs, a type of this phenomenon, are expanding ultraviolet and optical emission waves in the ionosphere above the storm.

The team of the Image Processing Laboratory of the University of Valencia that has participated in the article of Science is formed, in addition to Víctor Reglero, by Javier Navarro-González, Paul H. Connell and Chris J. Eyles.

 

Article:

T. Neubert et al., A terrestrial gamma-ray flash and ionospheric ultraviolet emissions powered by lightning, Science 10.1126/science.aax3872 (2019)

 

Photo caption annex:

(From left to right) Researchers from the University of Valencia who have participated in the now published discovery: Javier Navarro, Víctor Reglero and Paul Connell.

Images:
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