Galaxy formation and evolution

Cosmology from LOFAR Two-metre Sky Survey Data Release 2: Cross-correlations with luminous red galaxies from eBOSS

Astronomy & Astrophysics EDP Sciences 698 (2025) a58

Authors:

Jinglan Zheng, Prabhakar Tiwari, Gong-Bo Zhao, Dominik J Schwarz, David Bacon, Stefano Camera, Caroline Heneka, Catherine Hale, Szymon J Nakoneczny, Morteza Pashapour-Ahmadabadi

Galaxy size and mass build-up in the first 2 Gyr of cosmic history from multi-wavelength JWST NIRCam imaging

Astronomy & Astrophysics EDP Sciences 698 (2025) a30

Authors:

Natalie Allen, Pascal A Oesch, Sune Toft, Jasleen Matharu, Conor JR McPartland, Andrea Weibel, Gabe Brammer, Rebecca AA Bowler, Kei Ito, Rashmi Gottumukkala, Francesca Rizzo, Francesco Valentino, Rohan G Varadaraj, John R Weaver, Katherine E Whitaker

SYREN-NEW: Precise formulae for the linear and nonlinear matter power spectra with massive neutrinos and dynamical dark energy

Astronomy & Astrophysics EDP Sciences 698 (2025) a1

Authors:

Ce Sui, Deaglan J Bartlett, Shivam Pandey, Harry Desmond, Pedro G Ferreira, Benjamin D Wandelt

INSPIRE: INvestigating Stellar Populations In RElics – IX. KiDS J0842 + 0059: the first fully confirmed relic beyond the local Universe

Monthly Notices of the Royal Astronomical Society Oxford University Press 540:3 (2025) 2555-2565

Authors:

C Tortora, G Tozzi, G Agapito, F La Barbera, C Spiniello, R Li, G Carlà, G D’Ago, E Ghose, F Mannucci, NR Napolitano, E Pinna, M Arnaboldi, D Bevacqua, A Ferré-Mateu, A Gallazzi, J Hartke, LK Hunt, M Maksymowicz-Maciata, C Pulsoni, P Saracco, D Scognamiglio, M Spavone

Abstract:

Relics are massive, compact and quiescent galaxies that assembled the majority of their stars in the early Universe and lived untouched until today, completely missing any subsequent size growth caused by mergers and interactions. They provide the unique opportunity to put constraints on the first phase of mass assembly in the Universe with the ease of being nearby. While only a few relics have been found in the local Universe, the INSPIRE project has confirmed 38 relics at higher redshifts (), fully characterizing their integrated kinematics and stellar populations. However, given the very small sizes of these objects and the limitations imposed by the atmosphere, structural parameters inferred from ground-based optical imaging are possibly affected by systematic effects that are difficult to quantify. In this paper, we present the first high-resolution image obtained with Adaptive Optics Ks-band observations on SOUL-LUCI@LBT of one of the most extreme INSPIRE relics, KiDS J0842 + 0059 at . We confirm the discy morphology of this galaxy (axis ratio of 0.24) and its compact nature (circularized effective radius of kpc) by modelling its 2D surface brightness profile with a point-spread function-convolved Sérsic model. We demonstrate that the surface mass density profile of KiDS J0842 + 0059 closely resembles that of the most extreme local relic, NGC 1277, as well as of high-redshift red nuggets. We unambiguously conclude that this object is a remnant of a high-redshift compact and massive galaxy, which assembled all of its mass at , and completely missed the merger phase of the galaxy evolution at high redshift.

A multidimensional view of a unified model for TDEs

Monthly Notices of the Royal Astronomical Society Oxford University Press 540:4 (2025) 3069-3085

Authors:

Edward J Parkinson, Christian Knigge, Lixin Dai, Lars Lund Thomsen, James H Matthews, Knox S Long

Abstract:

Tidal disruption events (TDEs) can generate non-spherical, relativistic, and optically thick outflows. Simulations show that the radiation we observe is reprocessed by these outflows. According to a unified model suggested by these simulations, the spectral energy distributions (SEDs) of TDEs depend strongly on viewing angle: low [high] optical-to-X-ray ratios (OXRs) correspond to face-on [edge-on] orientations. Post-processing with radiative transfer codes has simulated the emergent spectra but has so far been carried out only in a quasi-1D framework, with three atomic species (H, He, and O). Here, we present 2.5D Monte Carlo radiative transfer simulations which model the emission from a non-spherical outflow, including a more comprehensive set of cosmically abundant species. While the basic trend of OXR increasing with inclination is preserved, the inherently multi-D nature of photon transport through the non-spherical outflow significantly affects the emergent SEDs. Relaxing the quasi-1D approximation allows photons to preferentially escape in (polar) directions of lower optical depth, resulting in a greater variation of bolometric luminosity as a function of inclination. According to our simulations, inclination alone may not fully explain the large dynamic range of observed TDE OXRs. We also find that including metals, other than O, changes the emergent spectra significantly, resulting in stronger absorption and emission lines in the extreme ultraviolet, as well as a greater variation in the OXR as a function of inclination. Whilst our results support previously proposed unified models for TDEs, they also highlight the critical importance of multi-D ionization and radiative transfer.