XRISM Satellite X-rays Milky Way’s Sulfur in Detail
An international team of scientists have provided an unprecedented tally of elemental sulfur spread between the stars using data from the Japan-led XRISM (X-ray Imaging and Spectroscopy Mission) spacecraft.
Astronomers used X-rays from two binary star systems to detect sulfur in the interstellar medium, the gas and dust found in the space between stars. It’s the first direct measurement of both sulfur’s gas and solid phases, a unique capability of X-ray spectroscopy, XRISM’s (pronounced “crism”) primary method of studying the cosmos.
Using ultraviolet light, researchers have found gaseous sulfur in the space between stars. In denser parts of the interstellar medium, such as the molecular clouds where stars and planets are born, this form of sulfur quickly disappears.
Scientists assume the sulfur condenses into a solid, either by combining with ice or mixing with other elements.
When a doctor performs an X-ray here on Earth, they place the patient between an X-ray source and a detector. Bone and tissue absorb different amounts of the light as it travels through the patient's body, creating contrast in the detector.
Scientists did something similar by picking a portion of the interstellar medium with the right density — not so thin that all the X-rays would pass through unchanged, but also not so dense that they would all be absorbed.
Then they selected a bright X-ray source behind that section of the medium, a binary star system called GX 340+0 located over 35,000 light-years away in the southern constellation Scorpius.
Using the Resolve instrument on XRISM, the researchers were able to measure the energy of GX 340+0’s X-rays and determined that sulfur was present not only as a gas, but also as a solid, possibly mixed with iron.
Iron-sulfur compounds are often found in meteorites, so scientists have long thought they might be one way sulfur solidifies out of molecular clouds to travel through the universe. XRISM’s observations could match a few of these compounds — pyrrhotite, troilite, and pyrite, which is sometimes called fool’s gold.
The researchers were also able to use measurements from a second X-ray binary called 4U 1630-472 that helped confirm their findings.
Watch to learn how the XRISM (X-ray Imaging and Spectroscopy Mission) satellite took an unprecedented look at our galaxy's sulfur. XRISM is led by JAXA (Japan Aerospace Exploration Agency) in collaboration with NASA, along with contributions from ESA (European Space Agency).
Credit: NASA's Goddard Space Flight Center
Music Credits:
"Innovate" by Dominik Johnson
"Progression" by Daniel Marantz and Sam Clunie
"Cellular" by Andy Hopkins and Dean Mahoney
Universal Production Music
This composite shows a section of the interstellar medium scientists X-rayed for sulfur using the Japan-led XRISM (X-ray Imaging and Spectroscopy Mission). X-ray binary GX 340+0 is the blue dot in the center. The composite contains a blend of imagery in X-rays (represented in deep blue), infrared, and light.
Credit: DSS/DECaPS/eRosita/NASA’s Goddard Space Flight Center
Alt text: Optical, infrared, and X-ray composite image of a portion of the interstellar gas and dust with an X-ray source at the center
Image description: A bright blue dot is at the center of this star field. Yellow, red, blue, and white dots speckle the rest of the image, some buried in green-tinted swirls of dust.
This composite shows a section of the interstellar medium scientists X-rayed for sulfur using the Japan-led XRISM (X-ray Imaging and Spectroscopy Mission). The X-ray binary 4U 1630–472 is highlighted at the center. The composite contains a blend of imagery in X-rays (represented in deep blue), infrared, and optical light.
Credit: DSS/DECaPS/eRosita/NASA’s Goddard Space Flight Center
Alt text: Optical, infrared, and X-ray composite image of a portion of the interstellar gas and dust
Image description: Yellow, red, blue, and white dots speckle this image of a starfield, with several larger blue dots along the bottom and right edges. Green-tinted dust swirls through the center of the image, with a denser clump in the bottom left corner. A red circle surrounds a faint blue dot at the center.
For More Information
Credits
Please give credit for this item to:
NASA's Goddard Space Flight Center except where otherwise specified.
-
Producer
- Sophia Roberts (eMITS)
-
Narrator
- Sophia Roberts (eMITS)
-
Technical support
- Aaron E. Lepsch (ADNET Systems, Inc.)
-
Science writer
- Jeanette Kazmierczak (University of Maryland College Park)
-
Scientist
- Brian J. Williams (NASA/GSFC)
Missions
This page is related to the following missions:Related papers
Related
- ID: 14707
Produced Video - ID: 14584
Produced Video - ID: 14492
Produced Video - ID: 12956
Produced Video
Release date
This page was originally published on Wednesday, July 23, 2025.
This page was last updated on Tuesday, July 22, 2025 at 4:03 PM EDT.