Deep Space Color Burst

Engineers Predict Evolution of Stars by HiPERCAM

Engineering Scientists have been working with HiPERCAM. HiPERCAM is a high-speed, multicolor camera, which can take more than 1,000 images per second, Engineers Predict Evolution of Stars . Thus, allowing experts to measure both the mass and the radius of a cool subdwarf star for the first time.

Engineers Study Structural Model

Finds have allowed engineering researchers to verify the commonly used stellar structure model. Which describes the internal structure of a star in detail. Making detailed predictions about the brightness, the color and its future evolution.

What Engineers Know

Engineering Scientists know that old stars have fewer metals than young stars. But the effects of this on the structure of stars was, until now, untested. Old stars (often referred to as cool subdwarf stars) are faint, there are few in the solar neighborhood. Up until now scientists have not had a HiPERCAM a High-Speed camera powerful enough to be able to get precise measurements. The mass and radius as well as the stellar parameters can then be measured.

HiPERCAM Simply Amazing

HiPERCAM can take one picture every millisecond. As opposed to a normal camera on a large telescope, capturing only one picture every few minutes. This has given scientists the ability to measure the star accurately for the first time. The researchers have been able to measure the size of the star to confirm it is in line with stellar structure theory. They say that these results would not have been possible with any other telescope. They have not only proved the stellar structure theory, but have also verified the potential of HiPERCAM.

Engineers Study Dead Stars

HiPERCAM is mounted on the Gran Telescopio Canarias (GTC). The world’s largest optical telescope, with a 10.4-meter mirror diameter, can predict age of stars in space . The camera can take high-speed images of objects in the universe, allowing their rapid brightness variations, Engineers Predict Evolution of Stars . Due to phenomena such as eclipses and explosions to be studied in unprecedented detail. Data captured by the camera, taken in five different colors simultaneously, allow scientists to study the remnants of dead stars. Such as white dwarfs, neutron stars and black holes. The GTC is based on the island of La Palma, situated 2,500 meters above sea level, which is one of the best places in the world to study the night sky.

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