Kinematic analysis of the super-extended HI disk of the nearby spiral galaxy M 83

C. Eibensteiner; F. Bigiel; A. K. Leroy; E. W. Koch; E. Rosolowsky; E. Schinnerer; A. Sardone; S. Meidt; W. J.G. De Blok; D. Thilker; D. J. Pisano; J. Ott; A. Barnes; M. Querejeta; E. Emsellem; J. Puschnig; D. Utomo; I. Bešlic; J. Den Brok; S. Faridani; S. C.O. Glover; K. Grasha; H. Hassani; J. D. Henshaw; M. J. Jiménez-Donaire; J. Kerp; D. A. Dale; J. M.D. Kruijssen; S. Laudage; P. Sanchez-Blazquez; R. Smith; S. Stuber; I. Pessa; E. J. Watkins; T. G. Williams; B. Winkel

doi:10.1051/0004-6361/202245290

Kinematic analysis of the super-extended HI disk of the nearby spiral galaxy M 83

C. Eibensteiner, F. Bigiel, A. K. Leroy, E. W. Koch, E. Rosolowsky, E. Schinnerer, A. Sardone, S. Meidt, W. J.G. De Blok, D. Thilker, D. J. Pisano, J. Ott, A. Barnes, M. Querejeta, E. Emsellem, J. Puschnig, D. Utomo, I. Bešlic, J. Den Brok, S. FaridaniS. C.O. Glover, K. Grasha, H. Hassani, J. D. Henshaw, M. J. Jiménez-Donaire, J. Kerp, D. A. Dale, J. M.D. Kruijssen, S. Laudage, P. Sanchez-Blazquez, R. Smith, S. Stuber, I. Pessa, E. J. Watkins, T. G. Williams, B. Winkel

Research output: Contribution to journal › Article › peer-review

11 Citations (Scopus)

Abstract

We present new Hâ ¯I observations of the nearby massive spiral galaxy Mâ 83 taken with the JVLA at 21â ³ angular resolution (â 500 pc) of an extended (?1.5 deg2) ten-point mosaic combined with GBT single-dish data. We study the super-extended Hâ ¯I disk of M 83 (?50 kpc in radius), in particular disk kinematics, rotation, and the turbulent nature of the atomic interstellar medium. We define distinct regions in the outer disk (rgal> central optical disk), including a ring, a southern area, a southern arm and a northern arm. We examine Hâ ¯I gas surface density, velocity dispersion, and noncircular motions in the outskirts, which we compare to the inner optical disk. We find an increase of velocity dispersion (Ï v) toward the pronounced Hâ ¯I ring, indicative of more turbulent Hâ ¯I gas. Additionally, we report over a large galactocentric radius range (until rgal? 50 kpc) where Ï v is slightly larger than thermal component (i.e., > 8 km s1). We find that a higher star-formation rate (as traced by far UV emission) is not necessarily always associated with a higher Hâ ¯I velocity dispersion, suggesting that radial transport could be a dominant driver for the enhanced velocity dispersion. Furthermore, we find a possible branch that connects the extended Hâ ¯I disk to the dwarf irregular galaxy UGCA 365 and that deviates from the general direction of the northern arm. Lastly, we compare mass flow rate profiles (based on 2D and 3D tilted ring models) and find evidence for outflowing gas at rgal ? 2 kpc, inflowing gas at rgal ? 5.5 kpc, and outflowing gas at rgal? 14 kpc. We caution that mass flow rates are highly sensitive to the assumed kinematic disk parameters, in particular to inclination.

Original language	English
Article number	A37
Journal	Astronomy and Astrophysics
Volume	675
DOIs	https://doi.org/10.1051/0004-6361/202245290
Publication status	Published - 1 Jul 2023

Access to Document

10.1051/0004-6361/202245290

Cite this

Eibensteiner, C., Bigiel, F., Leroy, A. K., Koch, E. W., Rosolowsky, E., Schinnerer, E., Sardone, A., Meidt, S., De Blok, W. J. G., Thilker, D., Pisano, D. J., Ott, J., Barnes, A., Querejeta, M., Emsellem, E., Puschnig, J., Utomo, D., Bešlic, I., Den Brok, J., ... Winkel, B. (2023). Kinematic analysis of the super-extended HI disk of the nearby spiral galaxy M 83. Astronomy and Astrophysics, 675, Article A37. https://doi.org/10.1051/0004-6361/202245290

@article{641421a31ebf4f678815b548e5618b37,

title = "Kinematic analysis of the super-extended HI disk of the nearby spiral galaxy M 83",

abstract = "We present new H{\^a} ¯I observations of the nearby massive spiral galaxy M{\^a} 83 taken with the JVLA at 21{\^a} ³ angular resolution ({\^a} 500 pc) of an extended (?1.5 deg2) ten-point mosaic combined with GBT single-dish data. We study the super-extended H{\^a} ¯I disk of M 83 (?50 kpc in radius), in particular disk kinematics, rotation, and the turbulent nature of the atomic interstellar medium. We define distinct regions in the outer disk (rgal> central optical disk), including a ring, a southern area, a southern arm and a northern arm. We examine H{\^a} ¯I gas surface density, velocity dispersion, and noncircular motions in the outskirts, which we compare to the inner optical disk. We find an increase of velocity dispersion ({\"I} v) toward the pronounced H{\^a} ¯I ring, indicative of more turbulent H{\^a} ¯I gas. Additionally, we report over a large galactocentric radius range (until rgal? 50 kpc) where {\"I} v is slightly larger than thermal component (i.e., > 8 km s1). We find that a higher star-formation rate (as traced by far UV emission) is not necessarily always associated with a higher H{\^a} ¯I velocity dispersion, suggesting that radial transport could be a dominant driver for the enhanced velocity dispersion. Furthermore, we find a possible branch that connects the extended H{\^a} ¯I disk to the dwarf irregular galaxy UGCA 365 and that deviates from the general direction of the northern arm. Lastly, we compare mass flow rate profiles (based on 2D and 3D tilted ring models) and find evidence for outflowing gas at rgal ? 2 kpc, inflowing gas at rgal ? 5.5 kpc, and outflowing gas at rgal? 14 kpc. We caution that mass flow rates are highly sensitive to the assumed kinematic disk parameters, in particular to inclination.",

keywords = "Galaxies: groups: individual: M 83, ISM: kinematics and dynamics, Radio lines: galaxies",

author = "C. Eibensteiner and F. Bigiel and Leroy, {A. K.} and Koch, {E. W.} and E. Rosolowsky and E. Schinnerer and A. Sardone and S. Meidt and {De Blok}, {W. J.G.} and D. Thilker and Pisano, {D. J.} and J. Ott and A. Barnes and M. Querejeta and E. Emsellem and J. Puschnig and D. Utomo and I. Be{\v s}lic and {Den Brok}, J. and S. Faridani and Glover, {S. C.O.} and K. Grasha and H. Hassani and Henshaw, {J. D.} and Jim{\'e}nez-Donaire, {M. J.} and J. Kerp and Dale, {D. A.} and Kruijssen, {J. M.D.} and S. Laudage and P. Sanchez-Blazquez and R. Smith and S. Stuber and I. Pessa and Watkins, {E. J.} and Williams, {T. G.} and B. Winkel",

note = "Publisher Copyright: {\textcopyright} The Authors 2023.",

year = "2023",

month = jul,

day = "1",

doi = "10.1051/0004-6361/202245290",

language = "English",

volume = "675",

journal = "Astronomy and Astrophysics",

issn = "0004-6361",

publisher = "EDP Sciences",

}

Eibensteiner, C, Bigiel, F, Leroy, AK, Koch, EW, Rosolowsky, E, Schinnerer, E, Sardone, A, Meidt, S, De Blok, WJG, Thilker, D, Pisano, DJ, Ott, J, Barnes, A, Querejeta, M, Emsellem, E, Puschnig, J, Utomo, D, Bešlic, I, Den Brok, J, Faridani, S, Glover, SCO, Grasha, K, Hassani, H, Henshaw, JD, Jiménez-Donaire, MJ, Kerp, J, Dale, DA, Kruijssen, JMD, Laudage, S, Sanchez-Blazquez, P, Smith, R, Stuber, S, Pessa, I, Watkins, EJ, Williams, TG & Winkel, B 2023, 'Kinematic analysis of the super-extended HI disk of the nearby spiral galaxy M 83', Astronomy and Astrophysics, vol. 675, A37. https://doi.org/10.1051/0004-6361/202245290

TY - JOUR

T1 - Kinematic analysis of the super-extended HI disk of the nearby spiral galaxy M 83

AU - Eibensteiner, C.

AU - Bigiel, F.

AU - Leroy, A. K.

AU - Koch, E. W.

AU - Rosolowsky, E.

AU - Schinnerer, E.

AU - Sardone, A.

AU - Meidt, S.

AU - De Blok, W. J.G.

AU - Thilker, D.

AU - Pisano, D. J.

AU - Ott, J.

AU - Barnes, A.

AU - Querejeta, M.

AU - Emsellem, E.

AU - Puschnig, J.

AU - Utomo, D.

AU - Bešlic, I.

AU - Den Brok, J.

AU - Faridani, S.

AU - Glover, S. C.O.

AU - Grasha, K.

AU - Hassani, H.

AU - Henshaw, J. D.

AU - Jiménez-Donaire, M. J.

AU - Kerp, J.

AU - Dale, D. A.

AU - Kruijssen, J. M.D.

AU - Laudage, S.

AU - Sanchez-Blazquez, P.

AU - Smith, R.

AU - Stuber, S.

AU - Pessa, I.

AU - Watkins, E. J.

AU - Williams, T. G.

AU - Winkel, B.

PY - 2023/7/1

Y1 - 2023/7/1

N2 - We present new Hâ ¯I observations of the nearby massive spiral galaxy Mâ 83 taken with the JVLA at 21â ³ angular resolution (â 500 pc) of an extended (?1.5 deg2) ten-point mosaic combined with GBT single-dish data. We study the super-extended Hâ ¯I disk of M 83 (?50 kpc in radius), in particular disk kinematics, rotation, and the turbulent nature of the atomic interstellar medium. We define distinct regions in the outer disk (rgal> central optical disk), including a ring, a southern area, a southern arm and a northern arm. We examine Hâ ¯I gas surface density, velocity dispersion, and noncircular motions in the outskirts, which we compare to the inner optical disk. We find an increase of velocity dispersion (Ï v) toward the pronounced Hâ ¯I ring, indicative of more turbulent Hâ ¯I gas. Additionally, we report over a large galactocentric radius range (until rgal? 50 kpc) where Ï v is slightly larger than thermal component (i.e., > 8 km s1). We find that a higher star-formation rate (as traced by far UV emission) is not necessarily always associated with a higher Hâ ¯I velocity dispersion, suggesting that radial transport could be a dominant driver for the enhanced velocity dispersion. Furthermore, we find a possible branch that connects the extended Hâ ¯I disk to the dwarf irregular galaxy UGCA 365 and that deviates from the general direction of the northern arm. Lastly, we compare mass flow rate profiles (based on 2D and 3D tilted ring models) and find evidence for outflowing gas at rgal ? 2 kpc, inflowing gas at rgal ? 5.5 kpc, and outflowing gas at rgal? 14 kpc. We caution that mass flow rates are highly sensitive to the assumed kinematic disk parameters, in particular to inclination.

AB - We present new Hâ ¯I observations of the nearby massive spiral galaxy Mâ 83 taken with the JVLA at 21â ³ angular resolution (â 500 pc) of an extended (?1.5 deg2) ten-point mosaic combined with GBT single-dish data. We study the super-extended Hâ ¯I disk of M 83 (?50 kpc in radius), in particular disk kinematics, rotation, and the turbulent nature of the atomic interstellar medium. We define distinct regions in the outer disk (rgal> central optical disk), including a ring, a southern area, a southern arm and a northern arm. We examine Hâ ¯I gas surface density, velocity dispersion, and noncircular motions in the outskirts, which we compare to the inner optical disk. We find an increase of velocity dispersion (Ï v) toward the pronounced Hâ ¯I ring, indicative of more turbulent Hâ ¯I gas. Additionally, we report over a large galactocentric radius range (until rgal? 50 kpc) where Ï v is slightly larger than thermal component (i.e., > 8 km s1). We find that a higher star-formation rate (as traced by far UV emission) is not necessarily always associated with a higher Hâ ¯I velocity dispersion, suggesting that radial transport could be a dominant driver for the enhanced velocity dispersion. Furthermore, we find a possible branch that connects the extended Hâ ¯I disk to the dwarf irregular galaxy UGCA 365 and that deviates from the general direction of the northern arm. Lastly, we compare mass flow rate profiles (based on 2D and 3D tilted ring models) and find evidence for outflowing gas at rgal ? 2 kpc, inflowing gas at rgal ? 5.5 kpc, and outflowing gas at rgal? 14 kpc. We caution that mass flow rates are highly sensitive to the assumed kinematic disk parameters, in particular to inclination.

KW - Galaxies: groups: individual: M 83

KW - ISM: kinematics and dynamics

KW - Radio lines: galaxies

UR - http://www.scopus.com/inward/record.url?scp=85164178079&partnerID=8YFLogxK

U2 - 10.1051/0004-6361/202245290

DO - 10.1051/0004-6361/202245290

M3 - Article

SN - 0004-6361

VL - 675

JO - Astronomy and Astrophysics

JF - Astronomy and Astrophysics

M1 - A37

ER -

Kinematic analysis of the super-extended HI disk of the nearby spiral galaxy M 83

Abstract

Access to Document

Other files and links

Fingerprint

Cite this