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[[File:BH2019Fig4.png|center|300px|Figure 4 from Basillais &amp; Hur&eacute; (2019)]]
[[File:BH2019Fig4.png|center|400px|Figure 4 from Basillais &amp; Hur&eacute; (2019)]]
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CAPTION: &nbsp;  
CAPTION: &nbsp; The spheroid-ring solutions (''grey dots'') populate the <math>~\omega_0^2 - j^2</math> diagram in between the MLS, the high-&omega; limit, and the high-j limit.  The MLS, ORS, Jacobi sequence, Hamburger sequence, and &epsilon;<sub>2</sub>-sequence are also shown (''plain lines'').  Points labelled a to f (''cross'') correspond to equilibria shown in Figure 3; see also Table 1.  There is a band of degeneracy rightward to the ORS (''green dashed zone'').
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Revision as of 03:44, 30 July 2020

Université de Bordeaux (Part 2)

Whitworth's (1981) Isothermal Free-Energy Surface
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Exterior Gravitational Potential of Toroids

J. -M. Huré, B. Basillais, V. Karas, A. Trova, & O. Semerák (2020), MNRAS, 494, 5825-5838 have published a paper titled, The Exterior Gravitational Potential of Toroids. Here we examine how their work relates to the published work by C.-Y. Wong (1973, Annals of Physics, 77, 279), which we have separately discussed in detail.

We discuss this topic in a separate, accompanying chapter.

Spheroid-Ring Systems

Through a research collaboration at the Université de Bordeaux, B. Basillais & J. -M. Huré (2019), MNRAS, 487, 4504-4509 have published a paper titled, Rigidly Rotating, Incompressible Spheroid-Ring Systems: New Bifurcations, Critical Rotations, and Degenerate States.

Key References

Here are some relevant publications:

Especially,

Key Figures

Eriguchi & Hachisu (1983)

Fig. 3 extracted without modification from p. 1134 of Eriguchi & Hachisu (1983)

"Two Kinds of Axially Symmetric Equilibrium Sequences of Self-Gravitating and Rotating Incompressible Fluids:
Two-Ring Sequence and Core-Ring Sequence
"

Progress of Theoretical Physics,

vol. 69, pp. 1131-1136 © Progress of Theoretical Physics

Figure 3 from Eriguchi & Hachisu (1983)

CAPTION:  The angular momentum-angular velocity relations. Solid curves represent uniformly rotating equilibrium sequences.

  • MS:   Maclaurin spheroid sequence
  • JE:   Jacobi ellipsoid sequence
  • OR:   one-ring sequence

The number and letter R or C attached to a curve denote mass ratio and two-ring or core-ring sequence, respectively. If differential rotation is allowed, the equilibrium sequences may continue to exist as shown by the dashed curves.

AKM (2003)

Fig. 2 extracted without modification from p. 517 of Ansorg, Kleinwächter & Meinel (2003)

"Uniformly rotating axisymmetric fluid configurations bifurcating from highly flattened Maclaurin spheroids"

MNRAS, vol. 339, pp. 515-523 © Royal Astronomical Society

Figure 2 from Ansorg, Kleinwächter & Meinel (2003)

CAPTION:   For the first five axisymmetric sequences, <math>~\omega_0^2</math> is plotted against the dimensionless squared angular momentum, <math>~j^2</math>, using the same normalizations as Eriguchi & Hachisu (1983). Dotted and dashed curves again refer to the Maclaurin sequence and the Dyson approximation respectively. The full circles mark the bifurcation points on the Maclaurin sequence, and the open square the transition configuration of spheroidal to toroidal bodies on the Dyson ring sequence.

Basillais & Huré (2019)

Fig. 4 extracted without modification from p. 4507 of Basillais & Huré (2019)

"Rigidly rotating, incompressible spheroid-ring systems:   new bifurcations, critical rotations, and degenerate states"

MNRAS, vol. 487, pp. 4504-4509 © Royal Astronomical Society

Figure 4 from Basillais & Huré (2019)

CAPTION:   The spheroid-ring solutions (grey dots) populate the <math>~\omega_0^2 - j^2</math> diagram in between the MLS, the high-ω limit, and the high-j limit. The MLS, ORS, Jacobi sequence, Hamburger sequence, and ε2-sequence are also shown (plain lines). Points labelled a to f (cross) correspond to equilibria shown in Figure 3; see also Table 1. There is a band of degeneracy rightward to the ORS (green dashed zone).


Whitworth's (1981) Isothermal Free-Energy Surface

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