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arxiv: 2605.30440 · v1 · pith:SU3DGOBRnew · submitted 2026-05-28 · 🌌 astro-ph.GA

Euclid preparation. Probing galaxy evolution within cosmic voids in Euclid-like simulations

Euclid Collaboration: G. Papini , O. Cucciati , M. Bolzonella , S. Contarini , S. Sartori , K. Kraljic , C. M. Correa , P. Vielzeuf
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G. De Lucia A. Pisani J. G. Sorce M. Magliocchetti C. Schimd F. Fontanot E. Sarpa L. Pozzetti A. Enia E. Pouyer M. Hirschmann M. Spinelli L. Xie G. Zamorani M. Fumagalli M. Fossati M. Aubert P. Awad A. W. S. Man A. Kov\'acs K. V. Nedkova B. Altieri A. Amara S. Andreon N. Auricchio C. Baccigalupi M. Baldi S. Bardelli P. Battaglia A. Biviano E. Branchini M. Brescia S. Camera V. Capobianco C. Carbone V. F. Cardone J. Carretero S. Casas M. Castellano G. Castignani S. Cavuoti K. C. Chambers A. Cimatti C. Colodro-Conde G. Congedo L. Conversi Y. Copin A. Costille F. Courbin H. M. Courtois M. Cropper A. Da Silva H. Degaudenzi S. de la Torre H. Dole F. Dubath X. Dupac S. Dusini S. Escoffier M. Farina S. Farrens S. Ferriol F. Finelli P. Fosalba S. Fotopoulou N. Fourmanoit M. Frailis E. Franceschi M. Fumana S. Galeotta K. George B. Gillis C. Giocoli J. Gracia-Carpio A. Grazian F. Grupp S. V. H. Haugan W. Holmes F. Hormuth A. Hornstrup K. Jahnke M. Jhabvala B. Joachimi S. Kermiche A. Kiessling B. Kubik M. K\"ummel M. Kunz H. Kurki-Suonio A. M. C. Le Brun S. Ligori P. B. Lilje V. Lindholm I. Lloro G. Mainetti E. Maiorano O. Mansutti S. Marcin O. Marggraf M. Martinelli N. Martinet F. Marulli R. J. Massey S. Maurogordato E. Medinaceli S. Mei M. Meneghetti E. Merlin G. Meylan A. Mora M. Moresco L. Moscardini R. Nakajima C. Neissner S.-M. Niemi C. Padilla S. Paltani F. Pasian K. Pedersen V. Pettorino S. Pires G. Polenta M. Poncet L. A. Popa F. Raison A. Renzi J. Rhodes G. Riccio E. Romelli M. Roncarelli C. Rosset R. Saglia Z. Sakr D. Sapone B. Sartoris P. Schneider T. Schrabback M. Scodeggio A. Secroun G. Seidel E. Sihvola P. Simon C. Sirignano G. Sirri L. Stanco P. Tallada-Cresp\'i A. N. Taylor I. Tereno N. Tessore S. Toft R. Toledo-Moreo F. Torradeflot I. Tutusaus J. Valiviita T. Vassallo G. Verdoes Kleijn Y. Wang J. Weller F. M. Zerbi E. Zucca V. Allevato M. Ballardini E. Bozzo C. Burigana R. Cabanac M. Calabrese A. Cappi T. Castro J. A. Escartin Vigo L. Gabarra J. Macias-Perez R. Maoli J. Mart\'in-Fleitas N. Mauri R. B. Metcalf P. Monaco A. A. Nucita A. Pezzotta M. P\"ontinen I. Risso V. Scottez M. Sereno M. Tenti M. Tucci M. Viel M. Wiesmann Y. Akrami I. T. Andika G. Angora S. Anselmi M. Archidiacono F. Atrio-Barandela L. Bazzanini D. Bertacca M. Bethermin F. Beutler A. Blanchard L. Blot S. Borgani M. L. Brown S. Bruton A. Calabro B. Camacho Quevedo F. Caro C. S. Carvalho F. Cogato A. R. Cooray S. Davini F. De Paolis G. Desprez A. D\'iaz-S\'anchez S. Di Domizio J. M. Diego P.-A. Duc V. Duret M. Y. Elkhashab Y. Fang A. Finoguenov A. Franco K. Ganga T. Gasparetto E. Gaztanaga F. Giacomini F. Gianotti G. Gozaliasl A. Gruppuso M. Guidi C. M. Gutierrez A. Hall C. Hern\'andez-Monteagudo H. Hildebrandt J. Hjorth J. J. E. Kajava Y. Kang V. Kansal D. Karagiannis K. Kiiveri J. Kim C. C. Kirkpatrick S. Kruk M. Lembo F. Lepori G. F. Lesci J. Lesgourgues T. I. Liaudat X. Lopez Lopez F. Mannucci C. J. A. P. Martins L. Maurin M. Miluzio A. Montoro C. Moretti G. Morgante S. Nadathur A. Navarro-Alsina S. Nesseris D. Paoletti F. Passalacqua K. Paterson L. Patrizii D. Potter G. W. Pratt S. Quai M. Radovich G. Rodighiero W. Roster S. Sacquegna M. Sahl\'en D. B. Sanders A. Schneider M. Schultheis D. Sciotti E. Sellentin F. Shankar L. C. Smith K. Tanidis C. Tao F. Tarsitano G. Testera R. Teyssier S. Tosi A. Troja A. Venhola D. Vergani G. Verza S. Vinciguerra N. A. Walton A. H. Wright
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keywords galaxieseuclidevolutiongalaxycosmicenvironmenthistoriesmass
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The evolution of galaxies is profoundly influenced by the environment in which they reside. Cosmic voids serve as pristine laboratories for studying galaxy evolution in the relative absence of the complex physical processes that dominate denser environments. In this study, we investigate galaxy properties and merger histories as a function of environment using the GAlaxy Evolution and Assembly (GAEA) mock-observation lightcone replicating the Euclid Deep Survey as foreseen for the first Euclid data release. The H$\alpha$-selected galaxy sample spans the redshift range $0.4 < z < 1.8$, corresponding to the interval over which H$\alpha$ is accessible to Euclid slitless spectroscopy. We classify galaxies based on their void-centric distance and local density contrast, and compare their stellar mass, specific star formation rate, bulge-to-total stellar mass ratio, and halo mass across different environments. We further analyse the merger histories of these galaxies to study their assembly evolution. We find that galaxies located closer to void centres ($d_{\rm cc} \lesssim 0.7 R_{\rm v}$) are less massive, more actively star-forming, and more disc-dominated than galaxies in denser regions. Merger histories indicate that void galaxies do not experience fewer mergers, but rather that mergers occur later relative to galaxies in high-density regions. These results support a scenario in which the environment regulates the timing and nature of mergers rather than their overall frequency, producing a slower evolutionary path in low-density regions. We conclude by discussing the extent to which these trends are shaped by environmental parametrisation methods and observational selection effects. Our analysis provides a framework for interpreting forthcoming Euclid data and demonstrates Euclid's potential to identify cosmic voids and probe environmental effects on galaxy evolution.

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