Galaxy formation and evolution

The Four‐Pillar Intersectionality Framework: Reframing Sustainable Entrepreneurship as a Transdisciplinary Domain

Business Strategy and the Environment Wiley (2025)

Authors:

Giusy Sica, Chiara Spiniello, Alessandra Micozzi, Maria Palazzo

Abstract:

This study offers a comprehensive bibliometric and text‐mining overview of two decades of sustainability‐oriented entrepreneurship research. Drawing on 7563 peer‐reviewed articles from the Web of Science Core Collection, we map the field's evolution, thematic structure, and disciplinary convergence, identifying influential authors, networks, and journals. Using rule‐based classification and unsupervised learning, we categorize contributions within a four‐pillar framework encompassing environmental, social, economic, and cultural dimensions and examine their prevalence, overlap, and temporal trends. The results reveal a pronounced shift toward transdisciplinarity: 77% of articles engage with at least three pillars, and 34.5% address all four simultaneously. Building directly on this empirical evidence, we propose the Four‐Pillar Intersectionality Framework (F‐PIF), which reconceptualizes sustainable entrepreneurship as a transdisciplinary knowledge domain shaped by interdependent sustainability logics. The F‐PIF is therefore both derived from and supported by the bibliometric findings, providing an empirically grounded conceptual model that advances theoretical understanding and offers practical guidance for scholars and practitioners navigating entrepreneurship in the age of sustainability.

JADES: Low Surface Brightness Galaxies at 0.4 < z < 0.8 in GOODS-S

(2025)

Authors:

Tristen Shields, Marcia Rieke, Kevin Hainline, Jakob M Helton, Andrew J Bunker, Courtney Carreira, Emma Curtis-Lake, Daniel J Eisenstein, Benjamin D Johnson, Pierluigi Rinaldi, Brant Robertson, Christina C Williams, Christopher NA Willmer, Yang Sun

PAH Marks the Spot: Digging for Buried Clusters in Nearby Star-forming Galaxies

The Astronomical Journal IOP Publishing 170:6 (2025) 340

Authors:

Gabrielle B Graham, Daniel A Dale, Chase L Smith, Elisabeth Brann, Kaycee D Conder, Samuel Crowe, Sumitra Dhileepkumar, Nicole A Imming, Emilio Mendez, Zachary Pleska, Kelsey Sako, Amirnezam Amiri, Ashley T Barnes, Médéric Boquien, Rupali Chandar, Ryan Chown, Oleg Y Gnedin, Kathryn Grasha, Stephen Hannon, Hamid Hassani, Rémy Indebetouw, Hwihyun Kim, Jaeyeon Kim, Hannah Koziol, Thomas G Williams

Abstract:

The joint capabilities of the Hubble Space Telescope (HST) and JWST allow for an unparalleled look at the early lives of star clusters at near- and mid-infrared wavelengths. We present here a multiband analysis of embedded young stellar clusters in 11 nearby, star-forming galaxies, using the PHANGS-JWST and PHANGS-HST data sets. We use the Zooniverse citizen science platform to conduct an initial by-eye search for embedded clusters in near-UV/optical/near-infrared images that trace stellar continuum emission, the Paschenα and Hα recombination lines, and the 3.3 μm polycyclic aromatic hydrocarbon feature and its underlying continuum. With this approach, we identify 292 embedded cluster candidates for which we characterize their ages, masses, and levels of line-of-sight extinction by comparing the photometric data to predictions from stellar population models. The embedded cluster candidates have a median age of 4.5 Myr and an average line-of-sight extinction 〈AV〉 = 6.0 mag. We determine lower limits on source stellar masses, resulting in a median stellar mass of 103 M⊙. We use this sample of embedded cluster candidates to train multiple convolutional neural network models to carry out deep transfer learning-based searches for embedded clusters. With the aim of optimizing models for future catalog production, we compare results for four variations of training data using two neural networks. Confusion matrices for all eight model configurations, as well as inter-model identification trends, are presented. With refinement of the training sample, we determine that optimized models could serve as a pathway for future embedded cluster identification beyond our 11 galaxy sample.

Deciphering the Nature of Virgil: An Obscured Active Galactic Nucleus Lurking within an Apparently Normal Lyα Emitter during Cosmic Reionization

The Astrophysical Journal American Astronomical Society 994:1 (2025) 86

Authors:

Pierluigi Rinaldi, Pablo G Pérez-González, George H Rieke, Jianwei Lyu, Francesco D’Eugenio, Zihao Wu, Stefano Carniani, Tobias J Looser, Irene Shivaei, Leindert A Boogaard, Tanio Diaz-Santos, Luis Colina, Göran Östlin, Stacey Alberts, Javier Álvarez-Márquez, Marianna Annuziatella, Manuel Aravena, Rachana Bhatawdekar, Andrew J Bunker, Karina I Caputi, Stéphane Charlot, Alejandro Crespo Gómez, Mirko Curti, Andreas Eckart, Steven Gillman, Kevin Hainline, Nimisha Kumari, Jens Hjorth, Edoardo Iani, Hanae Inami, Zhiyuan Ji, Benjamin D Johnson, Gareth C Jones, Álvaro Labiano, Roberto Maiolino, Jens Melinder, Thibaud Moutard, Florian Peissker, Marcia Rieke, Brant Robertson, Jan Scholtz, Sandro Tacchella, Paul P van der Werf, Fabian Walter, Christina C Williams, Chris Willott, Joris Witstok, Hannah Übler, Yongda Zhu

Abstract:

We present a comprehensive analysis of the MIRI Extremely Red Object Virgil, a Lyα emitter at zspec = 6.6379 ± 0.0035 with the photometric properties of a Little Red Dot. Leveraging new JWST/MIRI imaging from the MIDIS and PAHSPECS programs, we confirm Virgil’s extraordinary nature among galaxies in JADES/GOODS-South, exhibiting a strikingly red NIRCam-to-MIRI color (F444W–F1500W = 2.84 ± 0.04 mag). Deep NIRSpec/PRISM spectroscopy from the OASIS program offers key insights into the host galaxy, revealing properties of an average star-forming galaxy during Cosmic Reionization, such as a subsolar metallicity, low-to-moderate dust content, and a relatively high ionization parameter and electron temperature. By estimating the star formation rate of Virgil from UV and Hα, we find evidence that the galaxy is either entering or fading out of a bursty episode. Although line-ratio diagnostics employed at high z would classify Virgil as an active galactic nucleus (AGN), this classification becomes ambiguous once redshift evolution is considered. Nonetheless, Virgil occupies the same parameter space as recently confirmed AGNs at similar redshifts. The new deep MIRI data at 15 μm reinforce the AGN nature of Virgil, as inferred from multiple spectral energy distribution (SED) fitting codes. Virgil’s rising infrared SED and UV excess resemble those of Dust-Obscured Galaxies (DOGs) studied with Spitzer at Cosmic Noon, particularly blue-excess HotDOGs. Our results highlight the need for a multiwavelength approach incorporating MIRI to uncover such extreme sources at z ≳ 6 and to shed light on the interplay between galaxy evolution and early black hole growth during Cosmic Reionization.

The GECKOS survey: The formation history of a barred galaxy via structural decomposition and spatially resolved spectroscopy

Astronomy & Astrophysics EDP Sciences (2025)

Authors:

A Fraser-McKelvie, Da Gadotti, F Fragkoudi, C de Sá-Freitas, M Martig, M Bureau, T Davis, E Emsellem, R Elliott, D Fisher, M Hayden, J van de Sande, Ab Watts.

Abstract:

<jats:p>Disentangling the (co-)evolution of individual galaxy structural components remains a difficult task, owing to the inability to cleanly isolate light from spatially overlapping components. In this pilot study of PGC,044931, observed as part of the GECKOS survey, we utilised a VIRCAM H-band image to decompose the galaxy into five photometric components, three of which dominate by contributing more than $50%$ of light in specific regions, namely, a main disc, a boxy-peanut bulge, and a nuclear disc. When mapping the photometric decompositions onto MUSE observations, we found remarkably good separation in stellar kinematic space. All three structures occupy unique locations in the parameter space of the ratio of the light-weighted stellar line-of-sight mean velocity and velocity dispersion (rm V _⋆/σ_⋆) and the high-order stellar skew (h_3). These clear and distinct kinematic behaviours allowed us to make inferences about the formation histories of the individual components from observations of the mean stellar ages and metallicities of the three components. A clear story emerged: the main disc was built over a sustained and extended star formation phase, possibly partly fuelled by gas from a low-metallicity reservoir. Early on, that disc formed a bar that buckled and subsequently formed a nuclear disc in multiple and enriched star-formation episodes. This result is an example of how careful photometric decompositions combined with spatially well-resolved stellar kinematic information can help separate age-metallicity relations of different components and therefore disentangle the formation history of a galaxy. The results of this pilot study can be extended to a differential study of all GECKOS survey galaxies to assert the true diversity of Milky Way-like galaxies.</jats:p>