Universities Space Research Association | 2020 Jun 02
Observations from Stratospheric Observatory for Infrared Astronomy (SOFIA) indicate that the magnetic field near our galaxy’s core is strong enough to control the material moving around the black hole, even in the presence of the black hole’s enormous gravitational forces.
- A composite image of the central region of our Milky Way galaxy, known as Sagittarius A. SOFIA found that magnetic fields, shown as streamlines, are strong enough to control the material moving around the black hole, even in the presence of enormous gravitational forces. Image credit: NASA/SOFIA/L. Proudfit, ESA /Herschel/Hubble Space Telescope.
The research ... could help answer longstanding mysteries about why our black hole is relatively quiet compared to others, and why the formation of new stars in our galaxy’s core is lower than expected.
Using its newest infrared instrument to study celestial dust grains, which align perpendicular to magnetic field lines, SOFIA was able to produce detailed maps of our galactic center, showing the behavior of these otherwise invisible magnetic fields around the black hole.
“There are still aspects of our galaxy’s black hole that we can’t explain with gravity alone,” said Joan Schmelz ... “Magnetic fields may be able to help solve these mysteries.”
Scientists have often relied on gravity to explain their results because measuring celestial magnetic fields is extremely challenging. But the data from SOFIA now compel scientists to consider their role. We know that magnetic fields in the Earth’s magnetosphere protect us from high-energy particles coming from the Sun. They also control the plasma of the solar atmosphere, called the corona, where they create dramatic loops and powerful flares. SOFIA found that the magnetic field near the galactic center may be strong enough to control matter in way similar to the solar corona. ...
Magnetic Fields Force New Perspective on the Center of Our Milky Way Galaxy
NASA | Ames Research Center | SOFIA | 2020 Jun 02