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Constraining the Physical State of the Hot Gas Halos in NGC 4649 and NGC 5846
We present results of a joint \textit{Chandra}/\textit{XMM-Newton} analysis of the early-type galaxies NGC 4649 and NGC 5846 aimed at investigating differences between mass profiles derived from X-ray data and those from optical data, to probe the state of the hot ISM in these galaxies. If the hot I...
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| creator | Paggi, Alessandro Dong-Woo, Kim Anderson, Craig Burke, Doug D'Abrusco, Raffaele Fabbiano, Giuseppina Fruscione, Antonella Gokas, Tara Lauer, Jen McCollough, Michael Morgan, Doug Mossman, Amy O'Sullivan, Ewan Trinchieri, Ginevra Vrtilek, Saeqa Pellegrini, Silvia Romanowsky, Aaron J Brodie, Jean |
| description | We present results of a joint \textit{Chandra}/\textit{XMM-Newton} analysis of the early-type galaxies NGC 4649 and NGC 5846 aimed at investigating differences between mass profiles derived from X-ray data and those from optical data, to probe the state of the hot ISM in these galaxies. If the hot ISM is at a given radius in hydrostatic equilibrium (HE) the X-ray data can be used to measure the total enclosed mass of the galaxy. Differences from optically-derived mass distributions therefore yield information about departures from HE in the hot halos. The X-ray mass profiles in different angular sectors of NGC 4649 are generally smooth with no significant azimuthal asymmetries within \(12\) kpc. Extrapolation of these profiles beyond this scale yields results consistent with the optical estimate. However, in the central region (\(r < 3\) kpc) the X-ray data underpredict the enclosed mass, when compared with the optical mass profiles. Consistent with previous results we estimate a non-thermal pressure component accounting for \(30\%\) of the gas pressure, likely linked to nuclear activity. In NGC 5846 the X-ray mass profiles show significant azimuthal asymmetries, especially in the NE direction. Comparison with optical mass profiles in this direction suggests significant departures from HE, consistent with bulk gas compression and decompression due to sloshing on \(\sim 15\) kpc scales; this effect disappears in the NW direction where the emission is smooth and extended. In this sector we find consistent X-ray and optical mass profiles, suggesting that the hot halo is not responding to strong non-gravitational forces. |
| doi_str_mv | 10.48550/arxiv.1706.02303 |
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If the hot ISM is at a given radius in hydrostatic equilibrium (HE) the X-ray data can be used to measure the total enclosed mass of the galaxy. Differences from optically-derived mass distributions therefore yield information about departures from HE in the hot halos. The X-ray mass profiles in different angular sectors of NGC 4649 are generally smooth with no significant azimuthal asymmetries within \(12\) kpc. Extrapolation of these profiles beyond this scale yields results consistent with the optical estimate. However, in the central region (\(r < 3\) kpc) the X-ray data underpredict the enclosed mass, when compared with the optical mass profiles. Consistent with previous results we estimate a non-thermal pressure component accounting for \(30\%\) of the gas pressure, likely linked to nuclear activity. In NGC 5846 the X-ray mass profiles show significant azimuthal asymmetries, especially in the NE direction. Comparison with optical mass profiles in this direction suggests significant departures from HE, consistent with bulk gas compression and decompression due to sloshing on \(\sim 15\) kpc scales; this effect disappears in the NW direction where the emission is smooth and extended. In this sector we find consistent X-ray and optical mass profiles, suggesting that the hot halo is not responding to strong non-gravitational forces.</description><identifier>EISSN: 2331-8422</identifier><identifier>DOI: 10.48550/arxiv.1706.02303</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Galaxies ; Gas pressure ; Halos ; Star & galaxy formation ; XMM (spacecraft)</subject><ispartof>arXiv.org, 2017-06</ispartof><rights>2017. This work is published under http://arxiv.org/licenses/nonexclusive-distrib/1.0/ (the “License”). 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If the hot ISM is at a given radius in hydrostatic equilibrium (HE) the X-ray data can be used to measure the total enclosed mass of the galaxy. Differences from optically-derived mass distributions therefore yield information about departures from HE in the hot halos. The X-ray mass profiles in different angular sectors of NGC 4649 are generally smooth with no significant azimuthal asymmetries within \(12\) kpc. Extrapolation of these profiles beyond this scale yields results consistent with the optical estimate. However, in the central region (\(r < 3\) kpc) the X-ray data underpredict the enclosed mass, when compared with the optical mass profiles. Consistent with previous results we estimate a non-thermal pressure component accounting for \(30\%\) of the gas pressure, likely linked to nuclear activity. In NGC 5846 the X-ray mass profiles show significant azimuthal asymmetries, especially in the NE direction. Comparison with optical mass profiles in this direction suggests significant departures from HE, consistent with bulk gas compression and decompression due to sloshing on \(\sim 15\) kpc scales; this effect disappears in the NW direction where the emission is smooth and extended. In this sector we find consistent X-ray and optical mass profiles, suggesting that the hot halo is not responding to strong non-gravitational forces.</description><subject>Galaxies</subject><subject>Gas pressure</subject><subject>Halos</subject><subject>Star & galaxy formation</subject><subject>XMM (spacecraft)</subject><issn>2331-8422</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2017</creationdate><recordtype>article</recordtype><sourceid>PIMPY</sourceid><recordid>eNotjV1LwzAYhYMgOOZ-gHcBr1uTvHnzcSlFW2F-gLsfaZu6jpJok4n-e8cmHDg85-I5hNxwVkqDyO7c_DN-l1wzVTIBDC7IQgDwwkghrsgqpT1jTCgtEGFBnqsYUp7dGMbwQfPO07fdbxo7N9H37LKncTitTcy0dok2boqJjoG-1BWVSlrqQn8CNFJdk8vBTcmv_ntJNo8Pm6op1q_1U3W_LhwKKIQF34mBeQut9Wja1luureiN4h5kj_oYoWynmOdmAG91hx167K1FkBqW5Pas_Zzj18GnvN3HwxyOj1vBNFrOlQH4A4ctSyk</recordid><startdate>20170607</startdate><enddate>20170607</enddate><creator>Paggi, Alessandro</creator><creator>Dong-Woo, Kim</creator><creator>Anderson, Craig</creator><creator>Burke, Doug</creator><creator>D'Abrusco, Raffaele</creator><creator>Fabbiano, Giuseppina</creator><creator>Fruscione, Antonella</creator><creator>Gokas, Tara</creator><creator>Lauer, Jen</creator><creator>McCollough, Michael</creator><creator>Morgan, Doug</creator><creator>Mossman, Amy</creator><creator>O'Sullivan, Ewan</creator><creator>Trinchieri, Ginevra</creator><creator>Vrtilek, Saeqa</creator><creator>Pellegrini, Silvia</creator><creator>Romanowsky, Aaron J</creator><creator>Brodie, Jean</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>PRINS</scope><scope>PTHSS</scope></search><sort><creationdate>20170607</creationdate><title>Constraining the Physical State of the Hot Gas Halos in NGC 4649 and NGC 5846</title><author>Paggi, Alessandro ; 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If the hot ISM is at a given radius in hydrostatic equilibrium (HE) the X-ray data can be used to measure the total enclosed mass of the galaxy. Differences from optically-derived mass distributions therefore yield information about departures from HE in the hot halos. The X-ray mass profiles in different angular sectors of NGC 4649 are generally smooth with no significant azimuthal asymmetries within \(12\) kpc. Extrapolation of these profiles beyond this scale yields results consistent with the optical estimate. However, in the central region (\(r < 3\) kpc) the X-ray data underpredict the enclosed mass, when compared with the optical mass profiles. Consistent with previous results we estimate a non-thermal pressure component accounting for \(30\%\) of the gas pressure, likely linked to nuclear activity. In NGC 5846 the X-ray mass profiles show significant azimuthal asymmetries, especially in the NE direction. 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| subjects | Galaxies Gas pressure Halos Star & galaxy formation XMM (spacecraft) |
| title | Constraining the Physical State of the Hot Gas Halos in NGC 4649 and NGC 5846 |
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