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El Conjunto de Telescopios Espectroscópicos Nucleares de la NASA revela luces ocultas en el Sol

El Conjunto de Telescopios Espectroscópicos Nucleares de la NASA revela luces ocultas en el Sol

Vista de tres telescopios del sol

Las longitudes de onda de la luz de tres observatorios espaciales se superponen para proporcionar esta vista única del Sol. Crédito: NASA/JPL-Caltech/JAXA

Algunas de las regiones más calientes de la atmósfera solar son visibles en la vista de rayos X de NuSTAR.

Incluso en un día soleado, los ojos humanos no pueden ver toda la luz que emite nuestra estrella más cercana. Una nueva imagen muestra parte de esta luz oculta, incluidos los rayos X de alta energía emitidos por material más caliente en la atmósfera del sol, como se observó anteriormente.[{» attribute=»»>NASA’s Nuclear Spectroscopic Telescope Array (NuSTAR). While the observatory typically studies objects outside our solar system – like massive black holes and collapsed stars – it has also provided astronomers with insights about our Sun.

In the composite image above, NuSTAR data is represented as blue and is overlaid with observations by the X-ray Telescope (XRT) on the Japanese Aerospace Exploration Agency’s Hinode mission, represented as green, and the Atmospheric Imaging Assembly (AIA) on NASA’s Solar Dynamics Observatory (SDO), represented as red. NuSTAR’s relatively small field of view means it can’t see the entire Sun from its position in Earth orbit, so the observatory’s view of the Sun is actually a mosaic of 25 images, taken in June 2022.

NuSTAR Sun

The high-energy X-ray light detected by NASA’s NuSTAR observatory is seen isolated here. A grid was added to indicate the Sun’s surface. Credit: NASA/JPL-Caltech/JAXA

The high-energy X-rays observed by NuSTAR appear at only a few locations in the Sun’s atmosphere. By contrast, Hinode’s XRT detects low-energy X-rays, and SDO’s AIA detects ultraviolet light – wavelengths that are emitted across the entire face of the Sun.

NuSTAR’s view could help scientists solve one of the biggest mysteries about our nearest star: why the Sun’s outer atmosphere, called the corona, reaches more than a million degrees – at least 100 times hotter than its surface. This has puzzled scientists because the Sun’s heat originates in its core and travels outward. It’s as if the air around a fire were 100 times hotter than the flames.

The source of the corona’s heat could be small eruptions in the Sun’s atmosphere called nanoflares. Flares are large outbursts of heat, light, and particles visible to a wide range of solar observatories. Nanoflares are much smaller events, but both types produce material even hotter than the average temperature of the corona. Regular flares don’t happen often enough to keep the corona at the high temperatures scientists observe, but nanoflares may occur much more frequently – perhaps often enough that they collectively heat the corona.

Three Different Telescope View of Sun

The Sun appears different depending on who’s looking. From left, NASA’s NuSTAR sees high-energy X-rays; the Japanese Aerospace Exploration Agency’s Hinode mission sees lower energy X-rays; and NASA’s Solar Dynamics Observatory sees ultraviolet light. Credit: NASA/JPL-Caltech/JAXA

Although individual nanoflares are too faint to observe amid the Sun’s blazing light, NuSTAR can detect light from the high-temperature material thought to be produced when a large number of nanoflares occur close to one another. This ability enables physicists to investigate how frequently nanoflares occur and how they release energy.

The observations used in these images coincided with the 12th close approach to the Sun, or perihelion, by NASA’s Parker Solar Probe, which is flying closer to our star than any other spacecraft in history. Taking observations with NuSTAR during one of Parker’s perihelion passes enables scientists to link activity observed remotely in the Sun’s atmosphere with the direct samples of the solar environment taken by the probe.

More About the Mission

On June 13, 2012, the Caltech-led Small Explorer mission, NuSTAR, was launched. It is managed by JPL on behalf of NASA’s Science Mission Directorate in Washington. The project was developed in collaboration with the Danish Technical University (DTU) and the Italian Space Agency (ASI), with the telescope optics built by Columbia University, NASA’s Goddard Space Flight Center in Greenbelt, Maryland, and DTU, while the spacecraft was assembled by Orbital Sciences Corp. in Dulles, Virginia. Mission operations are overseen by the University of California, Berkeley, while NASA’s High Energy Astrophysics Science Archive Research Center serves as the official data archive. ASI provides both the ground station and mirror data archive, with JPL being managed by Caltech for NASA.

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