Astronomers say a major announcement is being made based on the findings of the international Event Horizon Telescope project, which experts believe could be the first photographs showing the surroundings of a black hole. On Wednesday, April 10, the Event Horizon Telescope team will hold multiple press conferences around the world to announce an "innovative result" in its study of dungeon environments
The Event Horizon Telescope is an international collaboration that aims to capture images of areas of black holes by connecting several radio antennas from around the world that together create a virtual telescope about the size of the planet Earth. The project began to capture data in 2006.
Scientists from the United States, France and the Netherlands will make their announcement Wednesday at the National Press Club in Washington, DC, while related press conferences will be held simultaneously in Brussels, Santiago, Shanghai, Taipei and Tokyo.
By creating a mbadive virtual telescope, the Event Horizon Telescope project aims to generate enough magnifying power to focus on black hole environments, allowing the study of its characteristics. Because black holes do not emit light, they can not be seen and are technically invisible. Instead, the Event Horizon telescope seeks to study the areas surrounding a black hole, that is, the gas that radiates around it due to its strong gravitational force, in an attempt to capture images of its general dynamics.
Black holes are regions within the fabric of outer space that have gravitational pulls so strong that nothing, either mbad particles or light waves, can escape from it. The point within the black hole from which nothing can escape is called its event horizon. Scientists believe that black holes are formed from the remnants of recently collapsed stars, which attract all the mbad and light from their surrounding areas to grow, and that supermbadive black holes form the center of most galaxies, creating gravitational forces that unite the different stars.
The size of any black hole is always proportional to its mbad, so some may only be a few times the mbad of our sun, which are called stellar black holes, while others are millions or billions of times the mbad of the sun: the supermbadive black It is believed that the holes anchor the constellations of galaxies.
The Event Horizon Telescope project has identified two supermbadive black holes to study: Sgr A *, which is at the heart of our Milky Way galaxy, and M87, a giant elliptical galaxy located in the constellation of Virgo.