CARMA-NRO Orion Survey: unbiased survey of dense cores and core mass   functions in Orion A

Hideaki Takemura; Fumitaka Nakamura; H\'ector G. Arce; Nicola; Schneider; Volker Ossenkopf-Okada; Shuo Kong; Shun Ishii; Kazuhito Dobashi,; Tomomi Shimoikura; Patricio Sanhueza; Takashi Tsukagoshi; Paolo Padoan; Ralf; S. Klessen; Paul. F. Goldsmith; Blakesley Burkhart; Dariusz C. Lis \'Alvaro; S\'anchez-Monge; Yoshito Shimajiri; Ryohei Kawabe

arXiv:2211.10215·astro-ph.GA·February 1, 2023

CARMA-NRO Orion Survey: unbiased survey of dense cores and core mass functions in Orion A

Hideaki Takemura, Fumitaka Nakamura, H\'ector G. Arce, Nicola, Schneider, Volker Ossenkopf-Okada, Shuo Kong, Shun Ishii, Kazuhito Dobashi,, Tomomi Shimoikura, Patricio Sanhueza, Takashi Tsukagoshi, Paolo Padoan, Ralf, S. Klessen, Paul. F. Goldsmith, Blakesley Burkhart

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TL;DR

This study uses dendrogram analysis on Orion A data to identify dense cores, analyze their mass functions, and explore core growth and star formation processes, revealing regional differences and core lifetimes.

Contribution

It provides the first unbiased survey of dense cores and their mass functions in Orion A, highlighting regional variations and core growth mechanisms.

Findings

01

Core mass function resembles Salpeter IMF above 1 M_sun.

02

Starless cores >10 M_sun only in OMC-1/2/3.

03

Core lifetimes estimated at 5-30 free-fall times.

Abstract

The mass distribution of dense cores is a potential key to understand the process of star formation. Applying dendrogram analysis to the CARMA-NRO Orion C $^{18}$ O ( $J$ =1--0) data, we identify 2342 dense cores, about 22 \% of which have virial ratios smaller than 2, and can be classified as gravitationally bound cores. The derived core mass function (CMF) for bound starless cores which are not associate with protostars has a slope similar to Salpeter's initial mass function (IMF) for the mass range above 1 $M_{⊙}$ , with a peak at $\sim$ 0.1 $M_{⊙}$ . We divide the cloud into four parts based on the declination, OMC-1/2/3, OMC-4/5, L1641N/V380 Ori, and L1641C, and derive the CMFs in these regions. We find that starless cores with masses greater than 10 $M_{⊙}$ exist only in OMC-1/2/3, whereas the CMFs in OMC-4/5, L1641N, and L1641C are truncated at around 5--10 $M_{⊙}$ . From the…

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Taxonomy

TopicsAstrophysics and Star Formation Studies · Phase Equilibria and Thermodynamics · Advanced Combustion Engine Technologies