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Spatially resolved stellar populations and kinematics with kcwi: Probing the assembly history of the massive early-type galaxy ngc 1407

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posted on 2024-07-11, 13:07 authored by Anna Ferre-MateuAnna Ferre-Mateu, Duncan ForbesDuncan Forbes, Richard M. McDermid, Aaron J. Romanowsky, Jean BrodieJean Brodie
Using the newly commissioned Keck Cosmic Web Imager (KCWI) instrument on the Keck II telescope, we analyze the stellar kinematics and stellar populations of the well-studied massive early-type galaxy (ETG) NGC 1407. We obtained high signal-to-noise integral field spectra for a central and an outer (around one effective radius toward the southeast direction) pointing with integration times of just 600 s and 2400 s, respectively. We confirm the presence of a kinematically distinct core also revealed by VLT/MUSE data of the central regions. While NGC 1407 was previously found to have stellar populations characteristic of massive ETGs (with radially constant old ages and high alpha-enhancements), it was claimed to show peculiar supersolar metallicity peaks at a large radius that deviated from an otherwise strong negative metallicity gradient, which is hard to reconcile within a "two-phase" formation scenario. Our outer pointing confirms the near-uniform old ages and the presence of a steep metallicity gradient, but with no evidence for anomalously high metallicity values at large galactocentric radii. We find a rising outer velocity dispersion profile and high values of the fourth-order kinematic moment - an indicator of possible anisotropy. This coincides with the reported transition from a bottom-heavy to a Salpeter initial mass function, which may indicate that we are probing the transition region from the "in situ" to the accreted phase. With short exposures, we have been able to derive robust stellar kinematics and stellar populations in NGC 1407 to ∼1 effective radius. This experiment shows that future work with KCWI will enable 2D kinematics and stellar populations to be probed within the low surface brightness regions of galaxy halos in an effective way.

Funding

Low mass galaxies and the growth of galaxy halos

Australian Research Council

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Cosmic origins: How do galaxies build chemical complexity over cosmic time? This project aims to answer questions of how the chemical complexity required to form stars, planets and life arose through cosmic history

Australian Research Council

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ISSN

1538-4357

Journal title

Astrophysical Journal

Volume

878

Issue

2

Article number

article no. 129

Publisher

Institute of Physics Publishing, Inc.

Copyright statement

Copyright © 2019 The American Astronomical Society. All rights reserved. The published version is reproduced in accordance with the copyright policy of the publisher.

Language

eng

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