Solar satellite breaks ground with new data

A Long March-2D rocket carrying China's first solar exploration satellite blasts off from the Taiyuan Satellite Launch Center in north China's Shanxi province, Oct 14, 2021. (ZHENG BIN / XINHUA)

China's solar observation satellite has achieved major scientific and technological feats during its in-orbit operation, according to the China National Space Administration.

The satellite Xihe, named after the sun goddess in ancient Chinese mythology, has carried out spectral scanning and imaging of the sun's H-Alpha waveband and has recorded the dynamics of the solar activities in the star's photosphere and chromosphere.

The spacecraft has also obtained spectral lines of the sun's H-Alpha waveband, neutral silicon atoms and neutral iron atoms, the space administration said on Tuesday.

The satellite Xihe, named after the sun goddess in ancient Chinese mythology, has carried out spectral scanning and imaging of the sun's H-Alpha waveband and has recorded the dynamics of the solar activities in the star's photosphere and chromosphere

All of these accomplishments have never been achieved by scientists before and they are expected to extensively advance the research of the sun and solar system and will give a bigger say to China in the academic field of solar physics, the administration noted.

The administration held a ceremony on Tuesday in Beijing to make public the scientific and engineering achievements of the Xihe mission.

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Also known as the Chinese H-Alpha Solar Explorer, Xihe was launched in October 2021 from the Taiyuan Satellite Launch Center in Shanxi province.

The satellite is China's first space-based solar telescope and is designed to work for at least three years. It is tasked with helping scientists deepen their knowledge of our nearest star.

Its scientific payload is an H-Alpha imaging spectrograph that can, for the first time, acquire full-disk spectroscopic solar observations in the H-Alpha waveband.

The 508-kilogram satellite is traveling in a sun-synchronous orbit about 517 kilometers above the Earth.

The satellite is China's first space-based solar telescope and is designed to work for at least three years. It is tasked with helping scientists deepen their knowledge of our nearest star

Its primary task is to investigate the dynamics of solar activity in its lower atmosphere, namely the photosphere and chromosphere, and to understand the physical mechanisms of solar eruptions. The mission is very meaningful to the nation's space exploration and satellite technology, mission planners said.

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Zhao Jian, head of the space administration's Key and Special Project Center, said on Tuesday that Xihe has carried out more than 300 technological tests and over 1,000 spectral imaging operations.

According to him, scientists around the world have been studying the H-Alpha spectral lines for a long time, but they had to rely on ground-based observatories that are susceptible to interference from factors such as earthly atmospheric disturbances.

Through Xihe, scientists now can get consistent, more accurate high-definition data, he said.

Now with the Xihe, we have got the world's finest two-dimensional spectral data about the sun, and we can use the data to detect new patterns of solar eruptions. Thanks to the satellite, we will definitely produce world-class feats in solar studies.

Ding Mingde, professor at Nanjing University's School of Astronomy and Space Science and a scientist involved in the Xihe project

In addition to the scientific value, the spacecraft has also enabled researchers to verify a new satellite platform with exceptionally high directional accuracy and flying stability, the official said.

Ding Mingde, a professor at Nanjing University's School of Astronomy and Space Science and a scientist involved in the Xihe project, said that solar eruptions have many effects on human activities so it is essential to obtain more knowledge about solar physical phenomena.

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"We need to study when a solar eruption would take place, how long it takes for the rays created by such eruptions to reach the Earth and its probable impacts on sensitive instruments and spacecraft," he explained.

"Now with the Xihe, we have got the world's finest two-dimensional spectral data about the sun, and we can use the data to detect new patterns of solar eruptions. Thanks to the satellite, we will definitely produce world-class feats in solar studies," the professor said.

zhaolei@chinadaily.com.cn