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Hauptverfasser: Gallazzi, Anna R., Zibetti, Stefano, Sargent, Mark, Bouche', Nicolas, Davies, Luke, Longhetti, Marcella, Puglisi, Annagrazia, Scholz-Diaz, Laura, Ditrani, Fabio, Mattolini, Daniele, Thater, Sabine, Tortora, Crescenzo, Ziegler, Bodo, Curti, Mirko, Pozzetti, Lucia, Raouf, Mojtaba, Rescigno, Umberto
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2512.16998
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author Gallazzi, Anna R.
Zibetti, Stefano
Sargent, Mark
Bouche', Nicolas
Davies, Luke
Longhetti, Marcella
Puglisi, Annagrazia
Scholz-Diaz, Laura
Ditrani, Fabio
Mattolini, Daniele
Thater, Sabine
Tortora, Crescenzo
Ziegler, Bodo
Curti, Mirko
Pozzetti, Lucia
Raouf, Mojtaba
Rescigno, Umberto
author_facet Gallazzi, Anna R.
Zibetti, Stefano
Sargent, Mark
Bouche', Nicolas
Davies, Luke
Longhetti, Marcella
Puglisi, Annagrazia
Scholz-Diaz, Laura
Ditrani, Fabio
Mattolini, Daniele
Thater, Sabine
Tortora, Crescenzo
Ziegler, Bodo
Curti, Mirko
Pozzetti, Lucia
Raouf, Mojtaba
Rescigno, Umberto
contents The cosmic Middle Ages, spanning the last 8-10 Gyr of the Universe, is a critical period in which massive early-formed systems coexist with global star formation quenching in less massive galaxies, yet galaxies experience further dynamical, morphological and chemical evolution. Understanding the relative role of internal drivers and of interaction with the evolving large-scale structures remains a highly complex and unsettled issue. To make transformative progress on these questions we must characterize the physical and kinematic properties (integrated and spatially resolved) of stellar populations in galaxies, fossil record of their past star formation and assembly histories, together with gas properties, across a wide range of masses and environmental scales, over this critical cosmic epoch. Volume-representative samples of 10^6 galaxies down to 10^9 solar masses are essential to fully trace the complex interplay between physical processes and to physically connect progenitor and descendant galaxy populations. This demands a deep and extensive survey with high signal-to-noise, medium-resolution, rest-frame optical spectroscopy. Current and planned facilities in the 2020-2030s cannot simultaneously achieve the required sample size, spectral quality, mass limit, and spatial coverage. A dedicated large-aperture spectroscopic facility with wide-area high-multiplex MOS and large field-of-view IFU is needed to provide transformative insights into the physical mechanisms regulating star formation and galaxy evolution.
format Preprint
id arxiv_https___arxiv_org_abs_2512_16998
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Archaeological investigation of galaxies' evolutionary history in the cosmic middle ages
Gallazzi, Anna R.
Zibetti, Stefano
Sargent, Mark
Bouche', Nicolas
Davies, Luke
Longhetti, Marcella
Puglisi, Annagrazia
Scholz-Diaz, Laura
Ditrani, Fabio
Mattolini, Daniele
Thater, Sabine
Tortora, Crescenzo
Ziegler, Bodo
Curti, Mirko
Pozzetti, Lucia
Raouf, Mojtaba
Rescigno, Umberto
Astrophysics of Galaxies
The cosmic Middle Ages, spanning the last 8-10 Gyr of the Universe, is a critical period in which massive early-formed systems coexist with global star formation quenching in less massive galaxies, yet galaxies experience further dynamical, morphological and chemical evolution. Understanding the relative role of internal drivers and of interaction with the evolving large-scale structures remains a highly complex and unsettled issue. To make transformative progress on these questions we must characterize the physical and kinematic properties (integrated and spatially resolved) of stellar populations in galaxies, fossil record of their past star formation and assembly histories, together with gas properties, across a wide range of masses and environmental scales, over this critical cosmic epoch. Volume-representative samples of 10^6 galaxies down to 10^9 solar masses are essential to fully trace the complex interplay between physical processes and to physically connect progenitor and descendant galaxy populations. This demands a deep and extensive survey with high signal-to-noise, medium-resolution, rest-frame optical spectroscopy. Current and planned facilities in the 2020-2030s cannot simultaneously achieve the required sample size, spectral quality, mass limit, and spatial coverage. A dedicated large-aperture spectroscopic facility with wide-area high-multiplex MOS and large field-of-view IFU is needed to provide transformative insights into the physical mechanisms regulating star formation and galaxy evolution.
title Archaeological investigation of galaxies' evolutionary history in the cosmic middle ages
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2512.16998