T. Freeman scite author profile

We complement our Hubble Space Telescope (HST ) observations of the inner ring of the galaxy NGC 3081 using an analytical approach and n-body simulations. We find that a gas cloud inner (r) ring forms under a rotating bar perturbation with very strong azimuthal cloud crowding where the ring crosses the bar major axis. Thus, star formation results near to and ''downstream'' of the major axis. From the dust distribution and radial velocities, the disk rotates counterclockwise (CCW ) on the sky like the bar pattern speed. We explain the observed CCW color asymmetry crossing the major axis as due to the increasing age of stellar associations inside the r ring major axis. These move faster than the pattern speed. The exterior point of the r ring at the bar major axis has an orbital rate equal to the pattern speed. We show how the perturbation strength can be estimated from the ring shapes and relative spacing over the inner through outer ring regions. The bar strength (maximum tangential/radial force) appears to be constant from 6 to 15 kpc. We derive how the perturbation, the fractional long wavelength m ¼ 2 intensity, and the rotation curve can be used to calculate the disk surface mass density versus radius. The disk surface density at 7 kpc is 13 M pc À2 rising to 19 at 13 kpc. The latter is insufficient by a factor of seven to generate the observed rotation curve, implying halo domination. The surface density may have been reduced at 7 kpc due to inner ring gas cloud scattering. The surface density plus the observed surface brightness gives a disk mass-to-light (M/L) ratio which increases from 7 kpc through 13 kpc, contradicting the usual assumption in bar strength calculations. The simulation ring lifetime of several billion years is consistent with our $400 Myr HST estimates. With a sufficiently high gas cloud surface mass density, our simulations form gas cloud ''associations'' near the ends of the bar as observed. Too high a density destroys the ring.

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AHubble Space TelescopeStudy of Star Formation in the Inner Resonance Ring of NGC 3081

Buta

Byrd

Freeman

2004

Astron J

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The Ringed Spiral Galaxy NGC 4622. I. Photometry, Kinematics, and the Case for Two Strong Leading Outer Spiral Arms

Buta¹,

Byrd²,

Freeman³

2003

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The intriguing nearly face-on southern ringed spiral galaxy NGC 4622, the first galaxy definitively shown to have leading spiral structure, is revisited in this paper with new images from the Hubble Space Telescope's WFPC2, together with ground-based optical and near-IR imaging, and a Fabry-Perot Hα velocity field. The data provide new information on the disk/bulge/halo mix, rotation curve, star formation in the galaxy, and the sense of winding of its prominent spiral arms. Previously, we suggested that the weaker, inner single arm most likely has the leading sense, based on a numerical simulation. Now, taking advantage of HST resolution and using de Vaucouleurs' standard extinction and reddening technique to determine the near side of the galaxy's slightly tilted disk, we come to the more surprising conclusion that the two strong outer arms have the leading sense. We suggest that this highly unusual configuration may be the result of a past minor merger or mild tidal encounter. Possible evidence for a minor merger is found in a short, central dust lane, although this is purely circumstantial and an unrelated interaction with a different companion could also be relevant. The leading arms may be allowed to persist because NGC 4622 is dark halo-dominated (i.e., not "maximum disk" in the inner regions) and displays a significantly rising rotation curve. The new HST observations also reveal a rich globular cluster system in the galaxy. The mean color of these clusters is (V − I) o = 1.04 and the specific frequency is 3.4±0.6. The luminosity function of these clusters confirms the membership of NGC 4622 in the Centaurus Cluster.

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The galaxy NGC 4622 - Long-lasting leading arms and rings via low mass perturbers

Byrd¹,

Freeman²,

Howard³

1993

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The Ringed Spiral Galaxy Ngc4622. Ii. An Independent Determination That the Two Outer Arms Lead

Byrd

Freeman

Howard

et al. 2007

The Astronomical Journal

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T. Freeman

The Inner Resonance Ring of NGC 3081. II. Star Formation, Bar Strength, Disk Surface Mass Density, and Mass-to-Light Ratio

AHubble Space TelescopeStudy of Star Formation in the Inner Resonance Ring of NGC 3081

The Ringed Spiral Galaxy NGC 4622. I. Photometry, Kinematics, and the Case for Two Strong Leading Outer Spiral Arms

The galaxy NGC 4622 - Long-lasting leading arms and rings via low mass perturbers

The Ringed Spiral Galaxy Ngc4622. Ii. An Independent Determination That the Two Outer Arms Lead

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