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Main Authors: Asogwa, Moses Onyemaechi, Negu, Seblu Humne, Kumssa, Gemechu Muleta, Eya, Innocent Okwudili
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.11409
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author Asogwa, Moses Onyemaechi
Negu, Seblu Humne
Kumssa, Gemechu Muleta
Eya, Innocent Okwudili
author_facet Asogwa, Moses Onyemaechi
Negu, Seblu Humne
Kumssa, Gemechu Muleta
Eya, Innocent Okwudili
contents We explore the roles of the three competitors, namely, gravity, turbulence, and magnetic fields, in controlling star formation (SF) within dense, massive clumps identified in the ATLASGAL survey. By examining scaling relations, virial parameters, and turbulent energy spectra, we evaluate the dynamical state of these clumps. We observe a weak velocity dispersion-size relation (sigma proportional to L^0.11), which is much shallower than the classical Larson-like relations, suggesting that turbulence does not mainly drive internal dynamics. The turbulent energy spectrum, E(k) proportional to k^-1.21, is also less steep than what is expected for both incompressible and compressible turbulence. We equally observe a decreasing trend in the virial parameter with increasing mass (alpha_vir proportional to M^-0.37), indicating that more massive clumps are increasingly gravitationally bound. These trends indicate an increasing relative dominance of gravity over turbulence at smaller scales, aligning with multiscale collapse scenarios; however, the absolute energy balance remains unquantifiable with the current data. Although magnetic fields are not directly measured, their potential influence is considered in the interpretation of pressure balance and dynamical support. Our findings imply that gravitational processes appear to primarily regulate the structure and evolution of massive clumps.
format Preprint
id arxiv_https___arxiv_org_abs_2512_11409
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The Influential Roles of Gravity, Turbulence, and Magnetic Fields in Shaping the Physical Evolution of Dense Massive Clumps
Asogwa, Moses Onyemaechi
Negu, Seblu Humne
Kumssa, Gemechu Muleta
Eya, Innocent Okwudili
Astrophysics of Galaxies
We explore the roles of the three competitors, namely, gravity, turbulence, and magnetic fields, in controlling star formation (SF) within dense, massive clumps identified in the ATLASGAL survey. By examining scaling relations, virial parameters, and turbulent energy spectra, we evaluate the dynamical state of these clumps. We observe a weak velocity dispersion-size relation (sigma proportional to L^0.11), which is much shallower than the classical Larson-like relations, suggesting that turbulence does not mainly drive internal dynamics. The turbulent energy spectrum, E(k) proportional to k^-1.21, is also less steep than what is expected for both incompressible and compressible turbulence. We equally observe a decreasing trend in the virial parameter with increasing mass (alpha_vir proportional to M^-0.37), indicating that more massive clumps are increasingly gravitationally bound. These trends indicate an increasing relative dominance of gravity over turbulence at smaller scales, aligning with multiscale collapse scenarios; however, the absolute energy balance remains unquantifiable with the current data. Although magnetic fields are not directly measured, their potential influence is considered in the interpretation of pressure balance and dynamical support. Our findings imply that gravitational processes appear to primarily regulate the structure and evolution of massive clumps.
title The Influential Roles of Gravity, Turbulence, and Magnetic Fields in Shaping the Physical Evolution of Dense Massive Clumps
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2512.11409