The Smallest Galaxies in Our Universe Bring More About Dark Matter to Light (Astronomy)

Our universe is dominated by a mysterious matter known as dark matter. Its name comes from the fact that dark matter does not absorb, reflect or emit electromagnetic radiation, making it difficult to detect.

Using stellar kinematics, a team of researchers has investigated the strength of dark matter scattered across the smallest galaxies in the universe.

“We discovered that the strength of dark matter is quite small, suggesting that dark matter does not easily scatter together,” said professor Kohei Hayashi, lead author of the study.

Much is unknown about dark matter, but theoretical and experimental research, from particle physics to astronomy, are elucidating more about it little by little.

One prominent theory surrounding dark matter is the “self-interacting dark matter (SIDM) theory.” It purports that dark matter distributions in galactic centers become less dense because of the self-scattering of dark matter.

A schematic of dark matter distributions where red indicates regions with higher dark matter density. The illustration on the left indicates that dark matter distribution becomes denser in the center of the galaxy, as this study found, whereas the illustration on the right shows a less dense distribution of dark matter according to SIDM. ©Kohei Hayashi

However, supernova explosions, which occur toward the end of a massive star’s life, can also form less dense distributions. This makes it challenging to distinguish whether it is the supernova explosion or the nature of dark matter that causes a less dense distribution of dark matter.

To clarify this, Hayashi and his team focused on ultra-faint dwarf galaxies. Here few stars exist, rendering the influences of supernova explosions negligible.

Their findings showed that dark matter is dense at the center of the galaxy, challenging the basic premise of SIDM. Images from the dwarf galaxy Segue 1 revealed high dark matter density at the center of the galaxy and limited scattering.

A graph indicating the strength of dark matter scattering (y-axis) versus the average relative velocity between dark matter and itself (x-axis). Error bars indicate galaxy estimates by previous studies, whereas the red regions shows results from the Segue 1 ultra-faint dwarf galaxy. © Hayashi et al.

Publication Details:

Title: Probing Dark Matter Self-interaction with Ultra-faint Dwarf Galaxies
Authors: Kohei Hayashi, Masahiro Ibe, Shin Kobayashi, Yuhei Nakayama, Satoshi Shirai
Journal: Physical Review D
DOI: 10.1103/PhysRevD.103.023017


Provided by Tohoku University

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