Spiral structure of the galactic disk and its influence on the rotational velocity curve

In the manifold theory of spiral structure in barred galaxies, the usual assumption is that the spirals rotate with the same pattern speed as the bar. Here, we generalize the manifold theory under the assumption that the spirals rotate with a different pattern speed than the bar. More generally, we consider the case in which one or more modes, represented by the potentials V2, V3, etc., coexist in the galactic disk in addition to the bar’s mode Vbar, but the modes rotate with pattern speeds, Ω2, Ω3, etc., which are incommensurable between themselves and with Ωbar. Through a perturbative treatment (assuming that V2, V3, etc. are small with respect to Vbar), we then show that the unstable Lagrangian points L1 and L2 of the pure bar model (Vbar, Ωbar) are continued in the full model as periodic orbits, in the case of one extra pattern speed, or as epicyclic “Lissajous-like” unstable orbits, in the case of more than one extra pattern speeds. We use GL1 and GL2 to denote the continued orbits around the points L1 and L2. Furthermore, we show that the orbits GL1 and GL2 are simply unstable. As a result, these orbits admit invariant manifolds, which can be regarded as the generalization of the manifolds of the L1 and L2 points in the single pattern speed case. As an example, we computed the generalized orbits GL1, GL2, and their manifolds in a Milky-Way-like model in which bar and spiral pattern speeds were assumed to be different. We find that the manifolds produce a time-varying morphology consisting of segments of spirals or “pseudorings”. These structures are repeated after a period equal to half the relative period of the imposed spirals with respect to the bar. Along one period, the manifold-induced time-varying structures are found to continuously support at least some part of the imposed spirals, except at short intervals around specific times at which the relative phase of the imposed spirals with respect to the bar is equal to ±π/2. The connection of these effects to the phenomenon of recurrent spirals is discussed.

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Computer models of spiral structure

Symposium - International Astronomical Union ◽

10.1017/s0074180900000917 ◽

1970 ◽

Vol 38 ◽

pp. 368-372 ◽

Cited By ~ 3

Author(s):

F. Hohl

Keyword(s):

Motion Picture ◽

Computer Model ◽

Spiral Structure ◽

Galactic Disk ◽

Equations Of Motion ◽

Computer Models ◽

The Self ◽

Large Numbers ◽

Self Consistent

A computer model for isolated disks of stars is used to study the self-consistent motion of large numbers of point masses as they move in the plane of the galactic disk. The Langley Research Center's CDC 6600 computers are used to integrate the equations of motion for systems containing from 50000 to 200000 stars. The results are presented in the form of a motion picture.

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Existence of wormhole supported by the Einasto density profile

Canadian Journal of Physics ◽

10.1139/cjp-2017-0524 ◽

2018 ◽

Vol 96 (11) ◽

pp. 1242-1245

Author(s):

Banashree Sen

Keyword(s):

Density Profile ◽

Galactic Halo ◽

Rotational Velocity ◽

Space Time ◽

Velocity Curve ◽

Density Model ◽

Degree Polynomial ◽

Traversable Wormhole

In this article, the existence of traversable wormhole in the outer and inner regions of the halos of galaxies using Einasto density profile has been investigated. We use Einasto density model, which is a 3D version of 2D Sérsic model (Dhar and Williams. M. Not. R. Astron. Soc. 405, 340 (2010). doi: 10.1111/j.1365-2966.2010.16446.x ). Two types of rotational velocity curve (one is a fifth degree polynomial and another is a constant) derived from experimental or observed data have been taken into account for describing the space–time of galactic halo comprising a traversable wormhole.

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The theory of spiral structure of galaxies

Symposium - International Astronomical Union ◽

10.1017/s0074180900000796 ◽

1970 ◽

Vol 38 ◽

pp. 317-317

Author(s):

L. S. Marochnik

Keyword(s):

Dispersion Relation ◽

Angular Velocity ◽

Spiral Structure ◽

Rotational Velocity ◽

Growth Parameter ◽

Spiral Waves ◽

Limited Growth ◽

A Value ◽

Two Populations ◽

Stream Instability

A Landau-type instability mechanism for generating spiral waves is suggested.Two populations of stars, Populations I and II, are considered, the second one with mean rotational velocity zero. Then a dispersion relation is derived which is reduced to the Lin-Shu dispersion relation in the case of vanishing Population II. The amplification of the wave is of the same type as the two-stream instability. It occurs if the angular velocity of the spiral pattern Ωs is smaller than the angular velocity of the Population I stars. A value of Ωs = 22–25 km s−1 kpc−1 was found, as well as the growth parameter. Spiral arms are formed in 108–109 yr, while trailing and leading waves grow at the same rate.A quasi-linear theory is developed to account for the limited growth of the spiral waves.Detailed accounts of the theory and of its implications are contained in recent publications (Marochnik, 1969; Marochnik and Suchkov, 1969a; 1969b; Marochnik and Ptitzina, 1969; Marochnik et al., 1969).

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Sydney Work on 21-cm Observations of the HI Galactic Disk

Symposium - International Astronomical Union ◽

10.1017/s0074180900226612 ◽

1958 ◽

Vol 8 ◽

pp. 924-925

Author(s):

F. J. Kerr

Keyword(s):

Large Scale ◽

Spiral Structure ◽

Galactic Disk ◽

Beam Width ◽

Central Plane ◽

Rotational Model ◽

General Picture ◽

Spiral Arms ◽

The Galaxy ◽

Half Power

This paper reports briefly on the provisional results of the 21-cm galactic work at the Radiophysics Laboratory, Sydney. Observations were made with a 36-ft, transit-type radio-telescope whose beam width at half-power is 1°.5 and a 4-channel receiver whose band width, 40 kcps, is equivalent to 8 km/sec.The large scale structure of the galaxy has been studied by Kerr, Hindman, and Carpenter. They derive a general picture of the spiral structure in the southern hemisphere extending the Leiden results (see Fig. 1) and, in addition, a “relief map” of the galaxy showing the location of the densest parts of the hydrogen layer with respect to a central plane (see Fig. 2). Analysis of the spiral structure is for the present limited to regions beyond 3 kpc from the center. The Sydney and Leiden data agree well where they overlap, but location of spiral arms is sensitive to the choice of rotational model. Four or five spiral arms, or sections of arms, are indicated in the longitude interval l= 170° to l= 320°. The arms are clearly trailing in the rotation.

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The Milky Way thin disk structure as revealed by stars and young open clusters

Proceedings of the International Astronomical Union ◽

10.1017/s1743921313006157 ◽

2013 ◽

Vol 9 (S298) ◽

pp. 7-16 ◽

Cited By ~ 2

Author(s):

Giovanni Carraro

Keyword(s):

Milky Way ◽

Spiral Structure ◽

Galactic Center ◽

Galactic Disk ◽

Chemical Properties ◽

Thin Disk ◽

Open Clusters ◽

Disk Structure ◽

The Status ◽

The Impact

AbstractIn this contribution I shall focus on the structure of the Galactic thin disk. The evolution of the thin disk and its chemical properties have been discussed in detail by T. Bensby's contribution in conjunction with the properties of the Galactic thick disk, and by L.Olivia in conjunction with the properties of the Galactic bulge. I will review and discuss the status of our understanding of three major topics, which have been the subject of intense research nowadays, after long years of silence: (1) the spiral structure of the Milky Way, (2) the size of the Galactic disk, and (3) the nature of the Local arm (Orion spur), where the Sun is immersed. The provisional conclusions of this discussion are that: (1) we still have quite a poor knowledge of the Milky Way spiral structure, and the main disagreements among various tracers are still to be settled; (2) the Galactic disk does clearly not have an obvious luminous cut-off at about 14 kpc from the Galactic center, and next generation Galactic models need to be updated in this respect, and (3) the Local arm is most probably an inter-arm structure, similar to what we see in several external spirals, like M 74. Finally, the impact of Gaia and LAMOST in this field will be briefly discussed as well.

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The Spiral Galaxies Flat Rotational Velocity Curve Explained by the Constant Group Velocity of a Nonlinear Density Wave

The Astronomical Journal ◽

10.3847/1538-3881/abd568 ◽

2021 ◽

Vol 161 (3) ◽

pp. 118

Author(s):

Miroslava Vukcevic

Keyword(s):

Group Velocity ◽

Spiral Galaxies ◽

Rotational Velocity ◽

Density Wave ◽

Velocity Curve ◽

Constant Group

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A Radio Survey of the Southern Milky Way at a Frequency of 1440 Mc/s. II. The Continuum Emission from the Galactic Disk

Australian Journal of Physics ◽

10.1071/ph620369 ◽

1962 ◽

Vol 15 (3) ◽

pp. 369 ◽

Cited By ~ 10

Author(s):

DS Mathewson ◽

JR Healey ◽

JM Rome

Keyword(s):

Milky Way ◽

Spiral Structure ◽

Galactic Disk ◽

Neutral Hydrogen ◽

Continuum Emission ◽

Nonthermal Radiation ◽

The Galaxy ◽

Disk Component ◽

Good Agreement ◽

The Continuum

The 1440 Mcls survey (Part I of this series) has been used in conjunction with the 85�5Mc/s survey of Hill, Slee, and Mills (1958) to delineate the distribution of the thermal and nonthermal radiation from the disk component of the Southern Milky Way and so complete an investigation commenced by the Northern Hemisphere observers Westerhout (Leiden) and Large, Mathewson, and Haslam (Jodrell Bank). Results of the analysis show an intense concent,ration of ionized hydrogen in an irregular spiral structure in the inner regions of the Galaxy. From lII=256� to 88�, good agreement was obtained between the longitudes at which concentrations of neutral hydrogen were found to occur from H-line studies and the longitudes at which the ionized hydrogen was concentrated. The steps in the longitude distribution of the 85�5 Mcls radiation which Mills used to delineate the spiral arms of the Galaxy were not all visible in the longitude distribution of the nonthermal component obtained from this present analysis. It is believed that three of Mills's steps are thermal in origin.

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Spiral Structure in the Outer Galactic Disk. I. The Third Galactic Quadrant

The Astrophysical Journal ◽

10.1086/524003 ◽

2008 ◽

Vol 672 (2) ◽

pp. 930-939 ◽

Cited By ~ 64

Author(s):

Ruben A. Vazquez ◽

Jorge May ◽

Giovanni Carraro ◽

Leonardo Bronfman ◽

Andre Moitinho ◽

...

Keyword(s):

Spiral Structure ◽

Galactic Disk ◽

The Third

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Possible Evidence for Lin's Three-Wave Interaction Mechanism at Corotation in the Galaxy NGC 1566

Symposium - International Astronomical Union ◽

10.1017/s0074180900032708 ◽

1983 ◽

Vol 100 ◽

pp. 151-152

Author(s):

G. Comte

Keyword(s):

Spiral Structure ◽

Galactic Disk ◽

Interaction Mechanism ◽

Wave Interaction ◽

Hii Regions ◽

The Galaxy

In a previous paper, (Comte and Duquennoy, 1982), we have reported observations of the distribution and kinematics of the ionized hydrogen in the large southern spiral NGC 1566 (SAB(r?s)bc I). We found evidence for a severe warping of the galactic disk, and discussed the spiral distribution of 477 detected HII regions. The observed spiral structure, deduced from the positions of the regions deprojected in a (ln r, θ) diagram, shows a four-armed design (Fig. 1):

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