Optical Rotation Curves and Linewidths for Tully-Fisher Applications

Courteau, Stéphane

doi:10.1086/118656

Cited by 390 publications

(632 citation statements)

References 52 publications

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“…Three of the forms are based on the observed rotation curves of edge-on galaxies in the literature having luminosities and peak rotational velocities similar to UGC 7321. The adopted models are (1) a very steeply rising curve, rising linearly to within 0.25 kpc V max and staying Ñat thereafter ; (2) a moderately steep curve, rising linearly to within the inner 1 kpc and Ñattening V max thereafter (e.g., UGC 3697, Goad & Roberts 1981) ; (3) an "" arctan ÏÏ rotation curve (see Courteau 1998) of the form where is the…”

Section: Artiðcial Rotation Curves : the Methodsmentioning

confidence: 99%

Modeling the Interstellar Medium of Low Surface Brightness Galaxies: Constraining Internal Extinction, Disk Color Gradients, and Intrinsic Rotation Curve Shapes

Matthews

Wood

2001

Astrophysical Journal

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We use a combination of three-dimensional Monte Carlo radiative transfer techniques and multiwavelength (BRHK, Ha) imaging data to investigate the nature of the interstellar medium (ISM) in the edge-on, low surface brightness (LSB) galaxy UGC 7321. Using realistic models that incorporate multiple scattering e †ects and clumping of the stars and the interstellar material, we explore the distribution and opacity of the interstellar material (gas]dust) and its e †ects on the observed stellar disk luminosity proÐles, color gradients, and rotation curve shape. We Ðnd that UGC 7321 contains a small but nonnegligible dusty component to its ISM, yielding a B-band optical depth from disk edge to q6 e,B D 4.0 center. A signiÐcant fraction (D50%^10%) of the interstellar material in the innermost regions of UGC 7321 appears to be contained in a clumpy medium, indicating that LSB galaxies can support a modest, multiphase ISM structure. In spite of the clear presence of dust, we conclude that the large radial optical color gradients observed in UGC 7321 and other similar LSB spiral galaxies cannot be accounted for by dust and must result primarily from signiÐcant stellar population and/or metallicity gradients. We show that realistic optical depth e †ects will have little impact on the observed rotation curves of edge-on disk galaxies and cannot explain the linear, slowly rising rotation curves seen in some edge-on LSB spirals. Projection e †ects create a far larger uncertainty in recovering the true underlying rotation curve shape of galaxies viewed at inclinations i Z 85¡.

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Section: Artiðcial Rotation Curves : the Methodsmentioning

confidence: 99%

Modeling the Interstellar Medium of Low Surface Brightness Galaxies: Constraining Internal Extinction, Disk Color Gradients, and Intrinsic Rotation Curve Shapes

Matthews

Wood

2001

Astrophysical Journal

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“…Therefore, we attempt to model the twodimensional velocity field to identify the dynamical centre and kinematic major axis. We follow Swinbank et al (2012) to construct two-dimensional models with an input rotation curve following an arctan function [v(r) = 2 π v asym arctan(r/r t )], where v asym is the asymptotic rotational velocity and r t is the effective radius at which the rotation curve turns over (Courteau 1997). The suite of two-dimensional models which we fit to the data have six free parameters [(x,y) centre, position angle, r t , v asym and disc inclination], and we use a genetic algorithm (Charbonneau 1995) to find the best model (see Swinbank et al 2012).…”

Section: Dynamicsmentioning

confidence: 99%

A relationship between specific star formation rate and metallicity gradient within z ∼ 1 galaxies from KMOS-HiZELS

Stott¹,

Sobral²,

Swinbank³

et al. 2014

Monthly Notices of the Royal Astronomical Society

109

142

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We have observed a sample of typical z ∼ 1 star forming galaxies, selected from the HiZELS survey, with the new KMOS near-infrared, multi-IFU instrument on the VLT, in order to obtain their dynamics and metallicity gradients. The majority of our galaxies have a metallicity gradient consistent with being flat or negative (i.e. higher metallicity cores than outskirts). Intriguingly, we find a trend between metallicity gradient and specific star formation rate (sSFR), such that galaxies with a high sSFR tend to have relatively metal-poor centres, a result which is strengthened when combined with datasets from the literature. This result appears to explain the discrepancies reported between different high redshift studies and varying claims for evolution. From a galaxy evolution perspective, the trend we see would mean that a galaxy's sSFR is governed by the amount of metal poor gas that can be funnelled into its core, triggered either by merging or through efficient accretion. In fact merging may play a significant role as it is the starburst galaxies at all epochs, which have the more positive metallicity gradients. Our results may help to explain the origin of the fundamental metallicity relation, in which galaxies at a fixed mass are observed to have lower metallicities at higher star formation rates, especially if the metallicity is measured in an aperture encompassing only the central regions of the galaxy. Finally, we note that this study demonstrates the power of KMOS as an efficient instrument for large scale resolved galaxy surveys.

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“…of Courteau (1997) which is an analytic form that expresses a profile initially rising smoothly with a 'kinematic scale radius' r p (Weiner et al 2006a;Puech et al 2008) and smoothly transitioning to a flat top; and (ii) the linear ramp function:…”

Section: Measuring Rotation Curvesmentioning

confidence: 99%

The Dawes Review 1: Kinematic Studies of Star-Forming Galaxies Across Cosmic Time

Glazebrook

2013

Publ. Astron. Soc. Aust.

136

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The last seven years have seen an explosion in the number of Integral Field galaxy surveys, obtaining resolved 2D spectroscopy, especially at high-redshift. These have taken advantage of the mature capabilities of 8-10 m class telescopes and the development of associated technology such as AO. Surveys have leveraged both high spectroscopic resolution enabling internal velocity measurements and high spatial resolution from AO techniques and sites with excellent natural seeing. For the first time, we have been able to glimpse the kinematic state of matter in young, assembling starforming galaxies and learn detailed astrophysical information about the physical processes and compare their kinematic scaling relations with those in the local Universe. Observers have measured disc galaxy rotation, merger signatures, and turbulence-enhanced velocity dispersions of gas-rich discs. Theorists have interpreted kinematic signatures of galaxies in a variety of ways (rotation, merging, outflows, and feedback) and attempted to discuss evolution vs. theoretical models and relate it to the evolution in galaxy morphology. A key point that has emerged from this activity is that substantial fractions of high-redshift galaxies have regular kinematic morphologies despite irregular photometric morphologies and this is likely due to the presence of a large number of highly gas-rich discs. There has not yet been a review of this burgeoning topic. In this first Dawes review, I will discuss the extensive kinematic surveys that have been done and the physical models that have arisen for young galaxies at high-redshift.

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Optical Rotation Curves and Linewidths for Tully-Fisher Applications

Cited by 390 publications

References 52 publications

Modeling the Interstellar Medium of Low Surface Brightness Galaxies: Constraining Internal Extinction, Disk Color Gradients, and Intrinsic Rotation Curve Shapes

Modeling the Interstellar Medium of Low Surface Brightness Galaxies: Constraining Internal Extinction, Disk Color Gradients, and Intrinsic Rotation Curve Shapes

A relationship between specific star formation rate and metallicity gradient within z ∼ 1 galaxies from KMOS-HiZELS

The Dawes Review 1: Kinematic Studies of Star-Forming Galaxies Across Cosmic Time

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