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NASA's Chandra Peers Into Densest and Weirdest Stars
3C 58
3C 58
3C 58
Visual Description:

  • Neutron stars may contain a special type of ultra-dense matter that does not exist anywhere else in the universe.

  • A study using NASA’s Chandra and ESA’s XMM-Newton looked at data of many neutron stars, which are the dense cores of collapsed stars.

  • Three of these neutron stars are surprisingly cool, which gives clues about basic properties like the pressure and temperatures in their interiors.

  • The structure and properties of neutron stars might be crucial for interpreting the bursts of gravitational waves when they merge.

The supernova remnant 3C 58 contains a spinning neutron star, known as PSR J0205+6449, at its center. Astronomers studied this neutron star and others like it to probe the nature of matter inside these very dense objects. A new study, made using NASA’s Chandra X-ray Observatory and ESA’s XMM-Newton, reveals that the interiors of neutron stars may contain a type of ultra-dense matter not found anywhere else in the Universe, as reported in our latest press release.

In this image of 3C 58, low-energy X-rays are colored red, medium-energy X-rays are green, and the high-energy band of X-rays is shown in blue. The X-ray data have been combined with an optical image in yellow from the Digitized Sky Survey. The Chandra data show that the rapidly rotating neutron star (also known as a “pulsar”) at the center is surrounded by a torus of X-ray emission and a jet that extends for several light-years. The optical data shows stars in the field.

The team in this new study analyzed previously released data from neutron stars to determine the so-called equation of state. This refers to the basic properties of the neutron stars including the pressures and temperatures in different parts of their interiors.

The authors used machine learning, a type of artificial intelligence, to compare the data to different equations of state. Their results imply that a significant fraction of the equations of state — the ones that do not include the capability for rapid cooling at higher masses — can be ruled out.

The researchers capitalized on some neutron stars in the study being located in supernova remnants, including 3C 58. Since astronomers have age estimates of the supernova remnants, they also have the ages of the neutron stars that were created during the explosions that created both the remnants and the neutron stars. The astronomers found that the neutron star in 3C 58 and two others were much cooler than the rest of the neutron stars in the study.

Illustration of a Neutron Star
Illustration of a Neutron Star (Credit: ICE-CSIC/D. Futselaar/Marino et al.)

The team thinks that part of the explanation for the rapid cooling is that these neutron stars are more massive than most of the rest. Because more massive neutron stars have more particles, special processes that cause neutron stars to cool more rapidly might be triggered.

One possibility for what is inside these neutron stars is a type of radioactive decay near their centers where neutrinos — low mass particles that easily travel through matter — carry away much of the energy and heat, causing rapid cooling.

Another possibility is that there are types of exotic matter found in the centers of these more rapidly cooling neutron stars.

The Nature Astronomy paper describing these results is available here. The authors of the paper are Alessio Marino (Institute of Space Sciences (ICE) in Barcelona, Spain), Clara Dehman (ICE), Konstantinos Kovlakas (ICE), Nanda Rea (ICE), J. A. Pons (University of Alicante in Spain), and Daniele Viganò (ICE).

NASA's Marshall Space Flight Center manages the Chandra program. The Smithsonian Astrophysical Observatory's Chandra X-ray Center controls science from Cambridge Massachusetts and flight operations from Burlington, Massachusetts.

 

Visual Description:

This is an image of the leftovers from an exploded star called 3C 58, shown in X-ray and optical light. At the center of the remnant is a rapidly spinning neutron star, called a pulsar, that presents itself as a bright white object that's somewhat elongated in shape.

Loops and swirls of material, in shades of blue and purple, extend outward from the neutron star in many directions, resembling the shape of an octopus and its arms.

Surrounding the octopus-like structure is a cloud of material in shades of red that is wider horizontally than it is vertically. A ribbon of purple material extends to the left edge of the red cloud, curling upward at its conclusion. Another purple ribbon extends to the right edge of the red cloud, though it is less defined than the one on the other side. Stars of many shapes and sizes dot the entire image.

 

Fast Facts for 3C 58:
Credit  X-ray: NASA/CXC/ICE-CSIC/A. Marino et al.; Optical: SDSS; Image Processing: NASA/CXC/SAO/J. Major
Release Date  June 20, 2024
Scale  Image is about 12 arcmin (26 light-years) across.
Category  Neutron Stars/X-ray Binaries, Supernovas & Supernova Remnants
Coordinates (J2000)  RA 02h 05m 37.0s | Dec +64° 49´ 48.0"
Constellation  Cassiopeia
Observation Dates  4 observations from Sep 2000 to Apr 2003
Observation Time  108 hours 52 minutes (4 days 12 hours 52 minutes)
Obs. ID  728, 3832, 4382, 4383
Instrument  ACIS
References Marino, A. et al., 2024, Nature Astronomy;
Color Code  X-ray: red = 0.5-1.2 keV, green = 1.2-2.0 keV, blue = 2.0-7.0 keV; Optical: yellow
Optical
X-ray
Distance Estimate  About 6,500 light-years
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