Morphological Classification of Local Luminous Infrared Galaxies

We present an analysis of the morphological classification of 89 luminous infrared galaxies (LIRGs) from the Great Observatories All-sky LIRG Survey (GOALS) sample using non-parametric coefficients and compare their morphology as a function of wavelength. We rely on images obtained in the optical (B...

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Veröffentlicht in:	arXiv.org 2016-02
Hauptverfasser:	Psychogyios, A, Charmandaris, V, Diaz- Santos, T, Armus, L, Haan, S, Howell, J, E Le Floc'h, Petty, S M, Evans, A S
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Schlagworte:	Classification Coefficients Compact galaxies Correlation analysis Cosmic dust Decoupling Emission Galaxies Infrared analysis Infrared astronomy Infrared stars Luminosity Mathematical analysis Milky Way Morphology Observatories Parameter identification Physics - Astrophysics of Galaxies Red shift Sky surveys (astronomy) Star & galaxy formation Star formation rate Stellar mass
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creator	Psychogyios, A Charmandaris, V Diaz- Santos, T Armus, L Haan, S Howell, J E Le Floc'h Petty, S M Evans, A S
description	We present an analysis of the morphological classification of 89 luminous infrared galaxies (LIRGs) from the Great Observatories All-sky LIRG Survey (GOALS) sample using non-parametric coefficients and compare their morphology as a function of wavelength. We rely on images obtained in the optical (B- and I-band) as well as in the infrared (H-band and 5.8$\mu$m). Our classification is based on the calculation of $Gini$ and the second order of light ($M_{20}$) non-parametric coefficients which we explore as a function of stellar mass ($M_\star$), infrared luminosity ($L_{IR}$) and star formation rate (SFR). We investigate the relation between $M_{20}$, the specific SFR (sSFR) and the dust temperature ($T_{dust}$) in our galaxy sample. We find that $M_{20}$ is a better morphological tracer than $Gini$, as it allows to distinguish systems formed by double systems from isolated and post-merger LIRGs. The multi-wavelength analysis allows us to identify a region in the $Gini$-$M_{20}$ parameter space where ongoing mergers reside, regardless of the band used to calculate the coefficients. In particular when measured in the H-band, this region can be used to identify ongoing mergers, with a minimal contamination from LIRGs in other stages. We also find that while the sSFR is positively correlated with $M_{20}$ when measured in the mid-infrared, i.e. star-bursting galaxies show more compact emission, it is anti-correlated with the B-band based $M_{20}$. We interpret this as the spatial decoupling between obscured and un-obscured star formation, whereby the ultraviolet/optical size of a LIRGs experience an intense dust enshrouded central starburst is larger than in the one in the mid-infrared since the contrast between the nuclear to the extended disk emission is smaller in the mid-infrared. This has important implications for high redshift surveys of dusty sources. [abridged]
doi_str_mv	10.48550/arxiv.1602.08500
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We rely on images obtained in the optical (B- and I-band) as well as in the infrared (H-band and 5.8$\mu$m). Our classification is based on the calculation of $Gini$ and the second order of light ($M_{20}$) non-parametric coefficients which we explore as a function of stellar mass ($M_\star$), infrared luminosity ($L_{IR}$) and star formation rate (SFR). We investigate the relation between $M_{20}$, the specific SFR (sSFR) and the dust temperature ($T_{dust}$) in our galaxy sample. We find that $M_{20}$ is a better morphological tracer than $Gini$, as it allows to distinguish systems formed by double systems from isolated and post-merger LIRGs. The multi-wavelength analysis allows us to identify a region in the $Gini$-$M_{20}$ parameter space where ongoing mergers reside, regardless of the band used to calculate the coefficients. In particular when measured in the H-band, this region can be used to identify ongoing mergers, with a minimal contamination from LIRGs in other stages. We also find that while the sSFR is positively correlated with $M_{20}$ when measured in the mid-infrared, i.e. star-bursting galaxies show more compact emission, it is anti-correlated with the B-band based $M_{20}$. We interpret this as the spatial decoupling between obscured and un-obscured star formation, whereby the ultraviolet/optical size of a LIRGs experience an intense dust enshrouded central starburst is larger than in the one in the mid-infrared since the contrast between the nuclear to the extended disk emission is smaller in the mid-infrared. This has important implications for high redshift surveys of dusty sources. 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We also find that while the sSFR is positively correlated with $M_{20}$ when measured in the mid-infrared, i.e. star-bursting galaxies show more compact emission, it is anti-correlated with the B-band based $M_{20}$. We interpret this as the spatial decoupling between obscured and un-obscured star formation, whereby the ultraviolet/optical size of a LIRGs experience an intense dust enshrouded central starburst is larger than in the one in the mid-infrared since the contrast between the nuclear to the extended disk emission is smaller in the mid-infrared. This has important implications for high redshift surveys of dusty sources. [abridged]</description><subject>Classification</subject><subject>Coefficients</subject><subject>Compact galaxies</subject><subject>Correlation analysis</subject><subject>Cosmic dust</subject><subject>Decoupling</subject><subject>Emission</subject><subject>Galaxies</subject><subject>Infrared analysis</subject><subject>Infrared astronomy</subject><subject>Infrared stars</subject><subject>Luminosity</subject><subject>Mathematical analysis</subject><subject>Milky Way</subject><subject>Morphology</subject><subject>Observatories</subject><subject>Parameter identification</subject><subject>Physics - Astrophysics of Galaxies</subject><subject>Red shift</subject><subject>Sky surveys (astronomy)</subject><subject>Star & galaxy formation</subject><subject>Star formation rate</subject><subject>Stellar mass</subject><issn>2331-8422</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2016</creationdate><recordtype>article</recordtype><sourceid>ABUWG</sourceid><sourceid>AFKRA</sourceid><sourceid>AZQEC</sourceid><sourceid>BENPR</sourceid><sourceid>CCPQU</sourceid><sourceid>DWQXO</sourceid><sourceid>GOX</sourceid><recordid>eNotj1FLwzAUhYMgOOZ-gE8WfG69uWnS5E0pOgcVX_Ze0rTRjK6pySrz39ttPp3D4XDu_Qi5o5DlknN41OHofjIqADOQHOCKLJAxmsoc8YasYtwBAIoCOWcL8vTuw_jle__pjO6TstcxOjv7g_ND4m1S-VNeTXs3-Ckmm8EGHbo2WeteH10Xb8m11X3sVv-6JNvXl235llYf6035XKWaI0uZpK1stWnm28ClkqKhiAaNVgptI8AUwijLOsqEMUYoy5s8B2io0VhwYEtyf5k949VjcHsdfusTZn3GnBsPl8YY_PfUxUO981MY5p9qBAk050ow9gfuqFR6</recordid><startdate>20160226</startdate><enddate>20160226</enddate><creator>Psychogyios, A</creator><creator>Charmandaris, V</creator><creator>Diaz- Santos, T</creator><creator>Armus, L</creator><creator>Haan, S</creator><creator>Howell, J</creator><creator>E Le Floc'h</creator><creator>Petty, S M</creator><creator>Evans, A S</creator><general>Cornell University Library, arXiv.org</general><scope>8FE</scope><scope>8FG</scope><scope>ABJCF</scope><scope>ABUWG</scope><scope>AFKRA</scope><scope>AZQEC</scope><scope>BENPR</scope><scope>BGLVJ</scope><scope>CCPQU</scope><scope>DWQXO</scope><scope>HCIFZ</scope><scope>L6V</scope><scope>M7S</scope><scope>PIMPY</scope><scope>PQEST</scope><scope>PQQKQ</scope><scope>PQUKI</scope><scope>PTHSS</scope><scope>GOX</scope></search><sort><creationdate>20160226</creationdate><title>Morphological Classification of Local Luminous Infrared Galaxies</title><author>Psychogyios, A ; 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subjects	Classification Coefficients Compact galaxies Correlation analysis Cosmic dust Decoupling Emission Galaxies Infrared analysis Infrared astronomy Infrared stars Luminosity Mathematical analysis Milky Way Morphology Observatories Parameter identification Physics - Astrophysics of Galaxies Red shift Sky surveys (astronomy) Star & galaxy formation Star formation rate Stellar mass
title	Morphological Classification of Local Luminous Infrared Galaxies
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