Universe
ID: 14374
Japan’s XRISM (X-ray Imaging and Spectroscopy Mission, pronounced “crism”) observatory will provide an unprecedented view into some of the hottest places in the universe. And it will do so using an instrument that’s actually colder than the frostiest cosmic location now known.
XRISM’s Resolve instrument will let astronomers peer into the make-up of cosmic X-ray sources to a degree that hasn’t been possible before. They anticipate many new insights about the hottest objects in the universe, which include exploding stars, black holes and galaxies powered by them, and clusters of galaxies.
This infographic illustrates the enormous range of cosmic temperatures. At the bottom of the scale is absolute zero Kelvin, or 459.67 degrees below zero Fahrenheit (minus 273.15 Celsius).
The detector for XRISM’s Resolve instrument is just a few hundredths of a degree warmer than this. It’s 20 times chillier than the Boomerang Nebula the coldest-known natural environment and about 50 times colder than the temperature of deep space, which is warmed only by the oldest light in the universe, the cosmic microwave background.
The instrument, a collaboration between NASA and JAXA (Japan Aerospace Exploration Agency), must be kept so cold because it works by measuring the tiny temperature increase created when X-rays strike its detector. This information builds up a picture of how bright the source is in various X-ray energies the equivalent of colors of visible light and lets astronomers identify chemical elements by their unique X-ray fingerprints, called spectra.
With current instruments, we’re only capable of seeing these fingerprints in a comparatively blurry way. Resolve will effectively give X-ray astrophysics a spectrometer with a magnifying glass
XRISM’s other instrument, called Xtend, developed by JAXA and Japanese universities, is an X-ray imager that will perform simultaneous observations with Resolve, providing complementary information. Both instruments rely on two identical X-ray Mirror Assemblies developed at Goddard.
XRISM is a collaborative mission between JAXA and NASA, with participation by ESA (European Space Agency). NASA’s contribution includes science participation from the Canadian Space Agency.
A Guide to Cosmic Temperatures
XRISM’s Resolve instrument will let astronomers peer into the make-up of cosmic X-ray sources to a degree that hasn’t been possible before. They anticipate many new insights about the hottest objects in the universe, which include exploding stars, black holes and galaxies powered by them, and clusters of galaxies.
This infographic illustrates the enormous range of cosmic temperatures. At the bottom of the scale is absolute zero Kelvin, or 459.67 degrees below zero Fahrenheit (minus 273.15 Celsius).
The detector for XRISM’s Resolve instrument is just a few hundredths of a degree warmer than this. It’s 20 times chillier than the Boomerang Nebula the coldest-known natural environment and about 50 times colder than the temperature of deep space, which is warmed only by the oldest light in the universe, the cosmic microwave background.
The instrument, a collaboration between NASA and JAXA (Japan Aerospace Exploration Agency), must be kept so cold because it works by measuring the tiny temperature increase created when X-rays strike its detector. This information builds up a picture of how bright the source is in various X-ray energies the equivalent of colors of visible light and lets astronomers identify chemical elements by their unique X-ray fingerprints, called spectra.
With current instruments, we’re only capable of seeing these fingerprints in a comparatively blurry way. Resolve will effectively give X-ray astrophysics a spectrometer with a magnifying glass
XRISM’s other instrument, called Xtend, developed by JAXA and Japanese universities, is an X-ray imager that will perform simultaneous observations with Resolve, providing complementary information. Both instruments rely on two identical X-ray Mirror Assemblies developed at Goddard.
XRISM is a collaborative mission between JAXA and NASA, with participation by ESA (European Space Agency). NASA’s contribution includes science participation from the Canadian Space Agency.
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Credits
Francis Reddy (University of Maryland College Park): Lead Science Writer
Scott Wiessinger (KBR Wyle Services, LLC): Producer
Scott Wiessinger (KBR Wyle Services, LLC): Graphic Designer
Scott Wiessinger (KBR Wyle Services, LLC): Producer
Scott Wiessinger (KBR Wyle Services, LLC): Graphic Designer
Please give credit for this item to:
NASA's Goddard Space Flight Center. However, individual items should be credited as indicated above.
NASA's Goddard Space Flight Center. However, individual items should be credited as indicated above.
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This item is part of this series:
Astrophysics Stills
Keywords:
SVS >> X-ray
SVS >> Black Hole
SVS >> Astrophysics
SVS >> Big Bang
SVS >> Universe
SVS >> Space
SVS >> Supernova
SVS >> Star
SVS >> Nebula
SVS >> Corona
NASA Science >> Universe
SVS >> Infographic
https://svs.gsfc.nasa.gov/14374
This item is part of this series:
Astrophysics Stills
Keywords:
SVS >> X-ray
SVS >> Black Hole
SVS >> Astrophysics
SVS >> Big Bang
SVS >> Universe
SVS >> Space
SVS >> Supernova
SVS >> Star
SVS >> Nebula
SVS >> Corona
NASA Science >> Universe
SVS >> Infographic
