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You entered: hotspots
![Горячие пятна микроволнового излучения - самые старые структуры](https://images.astronet.ru/pubd/2002/08/24/0001179210/4yr_cobe_big.preview.gif)
6.02.1996
Above are two microwave images of the sky, looking north and south of our galaxy's equator, based on data from NASA's COBE satellite. After computer processing to remove contributions from nearby objects and the effects of the earth's motion, they show "spots".
![Горячие пятна COBE: самые древние структуры](https://images.astronet.ru/pubd/2003/10/18/0001194175/4yr_cobe_big.preview.gif)
9.03.1997
Above are two images of the microwave sky, north and south of our galaxy's equator, based on data from NASA's COsmic Background Explorer (COBE) satellite. After computer processing to remove contributions from nearby objects and the effects of the earth's motion, they show "spots".
![Горячие пятна COBE: самые древние структуры](https://images.astronet.ru/pubd/2003/09/07/0001192739/cmb_cobe2yr.preview.jpg)
7.02.1998
Above is a microwave image of the entire sky. The plane of our galaxy runs horizontally through the center. This historic all-sky map is based on the first two years of data from NASA's COsmic Background Explorer (COBE) satellite.
![Горячие пятна микроволн: старейшие из известных структур во Вселенной](https://images.astronet.ru/pubd/2000/12/19/0001162396/4yr_cobe_big.preview.gif)
29.10.2000
These spots are the oldest, most distant structures known. They are seen on the above two images of the microwave sky, north and south of our galaxy's equator, based on four-year's worth of data from NASA's COsmic Background Explorer (COBE) satellite (1989-1993). The spots represent temperature variations in the early universe.
![Карта горячих пятен на поверхности нейтронной звезды J0030](https://images.astronet.ru/pubd/2019/12/18/0001578232/J0030_NICER_1024.preview.jpg)
18.12.2019
What do neutron stars look like? Previously these city-sized stars were too small and too far away to resolve. Recently, however, the first maps of the locations and sizes of hotspots on a neutron...
![Новые ударные волны СН 1987A](https://images.astronet.ru/pubd/2007/01/29/0001220544/sn1987a_hst1_big.preview.jpg)
17.02.2000
In February of 1987, astronomers witnessed the brightest supernova of modern times - supernova 1987A in the Large Magellanic Cloud. Mysterious rings of material surrounding the expanding stellar debris were soon emitting a visible glow excited by intense light from the explosion.
![Млечный Путь над Йеллоустоном](https://images.astronet.ru/pubd/2020/01/30/0001606035/StoneyWay_Jacobs_960.preview.jpg)
29.01.2020
The Milky Way was not created by an evaporating lake. The pool of vivid blue water, about 10 meters across, is known as Silex Spring and is located in Yellowstone National Park in Wyoming, USA. Steam rises off the spring, heated by a magma chamber deep underneath known as the Yellowstone hotspot.
![Млечный Путь над Йеллоустоном](https://images.astronet.ru/pubd/2014/08/28/0001320307/mwyellowstone_lane_960.preview.jpg)
27.08.2014
The Milky Way was not created by an evaporating lake. The colorful pool of water, about 10 meters across, is known as Silex Spring and is located in Yellowstone National Park in Wyoming, USA. Illuminated artificially, the colors are caused by layers of bacteria that grow in the hot spring.
![Бетельгейзе](https://images.astronet.ru/pubd/2006/01/06/0001210845/betelgeuse_hst_big.preview.jpg)
5.06.1999
Betelgeuse (sounds a lot like "beetle juice"), a red supergiant star about 600 light years distant, is seen in this Hubble Space Telescope image - the first direct picture of the surface of a star other than the Sun. While Betelgeuse is cooler than the Sun, it is more massive and over 1000 times larger.
![Бетельгейзе](https://images.astronet.ru/pubd/2003/09/08/0001192817/betelgeuse_hst_big.preview.jpg)
19.04.1998
Here is the first direct picture of the surface of a star other than our Sun. Taken by the Hubble Space Telescope in 1995, the atmosphere of Betelgeuse reveals some unexpected features, including a large bright hotspot visible below the center.
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