The massive relic galaxy NGC 1277 is dark matter deficient

Author:

Comerón SébastienORCID,Trujillo IgnacioORCID,Cappellari MicheleORCID,Buitrago FernandoORCID,Garduño Luis E.ORCID,Zaragoza-Cardiel JavierORCID,Zinchenko Igor A.,Lara-López Maritza A.ORCID,Ferré-Mateu AnnaORCID,Dib SamiORCID

Abstract

According to the Λ cold dark matter (ΛCDM) cosmology, present-day galaxies with stellar masses M > 1011M should contain a sizable fraction of dark matter within their stellar body. Models indicate that in massive early-type galaxies (ETGs) with M ≈ 1.5 × 1011M, dark matter should account for ∼15% of the dynamical mass within one effective radius (1 Re) and for ∼60% within 5 Re. Most massive ETGs have been shaped through a two-phase process: the rapid growth of a compact core was followed by the accretion of an extended envelope through mergers. The exceedingly rare galaxies that have avoided the second phase, the so-called relic galaxies, are thought to be the frozen remains of the massive ETG population at z ≳ 2. The best relic galaxy candidate discovered to date is NGC 1277, in the Perseus cluster. We used deep integral field George and Cynthia Mitchel Spectrograph (GCMS) data to revisit NGC 1277 out to an unprecedented radius of 6 kpc (corresponding to 5 Re). By using Jeans anisotropic modelling, we find a negligible dark matter fraction within 5 Re (fDM(5 Re) < 0.05; two-sigma confidence level), which is in tension with the ΛCDM expectation. Since the lack of an extended envelope would reduce dynamical friction and prevent the accretion of an envelope, we propose that NGC 1277 lost its dark matter very early or that it was dark matter deficient ab initio. We discuss our discovery in the framework of recent proposals, suggesting that some relic galaxies may result from dark matter stripping as they fell in and interacted within galaxy clusters. Alternatively, NGC 1277 might have been born in a high-velocity collision of gas-rich proto-galactic fragments, where dark matter left behind a disc of dissipative baryons. We speculate that the relative velocities of ≈2000 km s−1 required for the latter process to happen were possible in the progenitors of the present-day rich galaxy clusters.

Funder

Ministery of Science and Innovation

European Regional Development Fund

Instituto de Astrofísica de Canarias

International Space Science Institute

Publisher

EDP Sciences

Subject

Space and Planetary Science,Astronomy and Astrophysics

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