Revision as of 18:42, 27 March 2023

Maclaurin Toroid

Maclaurin Toroid Sequence MPT77

In a separate chapter, we focused on the pioneering work of 📚 F. W. Dyson (1893, Phil. Trans. Royal Soc. London. A., Vol. 184, pp. 43 - 95), 📚 F. W. Dyson (1893, Phil. Trans. Royal Soc. London. A., Vol. 184, pp. 1041 - 1106) and, more recently, 📚 C. -Y. Wong (1974, ApJ, Vol. 190, pp. 675 - 694), who determined the approximate equilibrium structure of axisymmetric, uniformly rotating, incompressible tori. We will refer to these uniformly rotating configurations as "Dyson-Wong tori."

Here, we summarize the work of 📚 P. S. Marcus, W. H. Press, & S. A. Teukolsky (1977, ApJ, Vol. 214, pp. 584 - 597) — hereafter, MPT77 — who constructed a sequence of toroidal-shaped, self-gravitating, incompressible configurations that are not uniformly rotating but, rather, have a distribution of angular momentum that is identical to the distribution found in a uniformly rotating, uniform-density sphere. As we have pointed out in our associated overview of "simple rotation curves", this chosen (cylindrical) radial distribution of specific angular momentum is given by the expression,

$\dot{φ} ϖ^{2}$	$=$	$\frac{5 L}{2 M} {1 - [1 - m (ϖ)]^{2 / 3}},$
📚 Stoeckly (1965), §II.c, Eq. (12) 📚 Ostriker & Mark (1968), Eq. (45) 📚 Bodenheimer & Ostriker (1970), Eq. (12) 📚 Bodenheimer & Ostriker (1973), Eq. (3)

where, $L$ is the total angular momentum, $M$ is the total mass, the mass fraction,

$m (ϖ) \equiv \frac{M_{ϖ} (ϖ)}{M},$

and $M_{ϖ} (ϖ)$ is the mass enclosed within a cylinder of radius, $ϖ$ . Such equilibrium models are often referred to as $n^{'} = 0$ configurations, although MPT77 do not use this terminology. Following the lead of MPT77, we will refer to each of their equilibrium configurations as a "Maclaurin Toroid."

Maclaurin Spheroid Reminder

As has been demonstrated in our accompanying discussion of the Maclaurin spheroid sequence, the (square of the) normalized angular momentum that is associated with a spheroid of eccentricity, $e \equiv (1 - c^{2} / a^{2})^{1 / 2}$ , is,

$L_{*}^{2} \equiv \frac{L^{2}}{(G M^{3} \bar{a})}$	$=$	$\frac{6}{5^{2}} [(3 - 2 e^{2}) (1 - e^{2})^{1 / 2} \cdot \frac{\sin^{- 1} e}{e^{3}} - \frac{3 (1 - e^{2})}{e^{2}}] (1 - e^{2})^{- 2 / 3} .$
📚 Marcus, Press, & Teukolsky (1977), §IVa, p. 591, Eq. (4.2)

In that same discussion, we have demonstrated that that the corresponding ratio of rotational to gravitational potential energy is given by the expression,

$τ \equiv \frac{T_{r o t}}{\| W_{g r a v} \|}$	$=$	$\frac{1}{2 e^{2} \sin^{- 1} e} [(3 - 2 e^{2}) \sin^{- 1} e - 3 e (1 - e^{2})^{1 / 2}] .$
📚 Marcus, Press, & Teukolsky (1977), §IVc, p. 594, Eq. (4.4)

Figure 4 from this accompanying discussion shows how $L_{*}$ varies with $τ$ along the Maclaurin Spheroid sequence. In an effort to conform to MPT77's presentation, our Figure 1 (immediately below) displays the same information as displayed in Figure 4 of this separate chapter, but the axes have been swapped and the maximum displayed value of $L_{*}$ has been extended from 1 to 1.5.

EFE Diagram	Figure 1	Figure 2
EFE Diagram	This multicolor curve also appears as a solid black curve in: Fig. 5 (p. 594) of 📚 Marcus, Press, & Teukolsky (1977)	This multicolor curve also appears as a solid black curve in: Fig. 4 (p. 593) of 📚 Marcus, Press, & Teukolsky (1977)

Constructed Maclaurin Toroid Models

📚 Marcus, Press, & Teukolsky (1977) did not create a tabulated description of the models that they constructed along their so-called "Maclaurin Toroid" sequence. Throughout their paper, however, they identify the properties of a selected group of equilibrium models. Here is a list of the Maclaurin Toroid models that we have pulled from their discussion.

Model	$L_{*}$	Spheroid Equivalent			Notes …
Model	$L_{*}$	$e$	$τ$	$E_{t o t} = \frac{5}{3} (T + W) / E_{T 78}$	Notes …
$L^{-}$	$\sim 0.775$	$\sim 0.99409$	$\sim 0.40585$	$- 0.41685$	Toroid does not exist
$L_{0}$	$0.792 \pm 0.002$	$0.9949 \pm 0.0001$	$0.41195$	$- 0.40439$	Total energy of toroid is same as the total energy of Maclaurin spheroid with same $L_{*}$ .
	$0.8732$	$0.9975$	$0.4367$	$- 0.35023$	Marginally stable Maclaurin spheroid and associated toroid; see MPT77's Figure 2 (p. 592). Also, one (of five) meridional cross-sections displayed in MPT77's Figure 3 (p. 593)
$L^{+}$	$0.965175$	$0.99892$	$0.45747$	$- 0.29762$	Analytically known (!) onset of dynamical instability along Maclaurin spheroid sequence; see § 33 of EFE and the last row of Table B.1 from 📚 Bardeen (1971)
	$0.9852$	$0.99910$	$0.46104$	$- 0.28754$	Four (of five) meridional cross-sections displayed in MPT77's Figure 3 (p. 593)
	$1.0731$	$0.99960$	$0.47369$	$- 0.24745$
	$1.1489$	$0.99980$	$0.48125$	$- 0.21841$
	$1.2262$	$0.9998999$	$0.486665$	$- 0.19329$

@@ Line 141: / Line 141: @@
    <td align="center" rowspan="1" colspan="1"><math>e</math></td>
    <td align="center" rowspan="1" colspan="1"><math>\tau</math></td>
-   <td align="center" rowspan="1" colspan="1"><math>E_\mathrm{tot} = (T+W)/E_\mathrm{T78}</math></td>
+   <td align="center" rowspan="1" colspan="1"><math>E_\mathrm{tot} = \tfrac{5}{3}(T+W)/E_\mathrm{T78}</math></td>
 </tr>
@@ Line 147: / Line 147: @@
    <td align="center"><math>L^-</math></td>
    <td align="center"><math>\sim 0.775</math></td>
-   <td align="center"><math>\sim 0.994</math></td>
+   <td align="center"><math>\sim 0.99409</math></td>
-   <td align="center"><math>\sim 0.4058</math></td>
+   <td align="center"><math>\sim 0.40585</math></td>
-   <td align="center"><math>-0.25011</math></td>
+   <td align="center"><math>-0.41685</math></td>
    <td align="left">Toroid does not exist</td>
 </tr>
@@ Line 158: / Line 158: @@
    <td align="center"><math>0.9949 \pm 0.0001</math></td>
    <td align="center"><math>0.41195</math></td>
-   <td align="center"><math>-0.24263</math></td>
+   <td align="center"><math>-0.40439</math></td>
    <td align="left">Total energy of toroid is same as the total energy of Maclaurin spheroid with same <math>L_*</math>.</td>
 </tr>
@@ Line 167: / Line 167: @@
    <td align="center"><math>0.9975</math></td>
    <td align="center"><math>0.4367</math></td>
-   <td align="center"><math>-0.21014</math></td>
+   <td align="center"><math>-0.35023</math></td>
    <td align="left">Marginally stable Maclaurin spheroid and associated toroid; see {{ MPT77hereafter}}'s Figure 2 (p. 592).  Also, one (of five) meridional cross-sections displayed in {{ MPT77hereafter}}'s Figure 3 (p. 593)</td>
 </tr>
@@ Line 176: / Line 176: @@
    <td align="center"><math>0.99892</math></td>
    <td align="center"><math>0.45747</math></td>
-   <td align="center"><math>-0.17857</math></td>
+   <td align="center"><math>-0.29762</math></td>
    <td align="left">''Analytically known'' (!) onset of dynamical instability along Maclaurin spheroid sequence; see &sect; 33 of EFE and the last row of Table B.1 from {{ Bardeen71 }}</td>
 </tr>
@@ Line 185: / Line 185: @@
    <td align="center"><math>0.99910</math></td>
    <td align="center"><math>0.46104</math></td>
-   <td align="center"><math>-0.17252</math></td>
+   <td align="center"><math>-0.28754</math></td>
    <td align="left" rowspan="4">Four (of five) meridional cross-sections displayed in {{ MPT77hereafter}}'s Figure 3 (p. 593)</td>
 </tr>
@@ Line 194: / Line 194: @@
    <td align="center"><math>0.99960</math></td>
    <td align="center"><math>0.47369</math></td>
-   <td align="center"><math>-0.14847</math></td>
+   <td align="center"><math>-0.24745</math></td>
 </tr>
@@ Line 202: / Line 202: @@
    <td align="center"><math>0.99980</math></td>
    <td align="center"><math>0.48125</math></td>
-   <td align="center"><math>-0.13104</math></td>
+   <td align="center"><math>-0.21841</math></td>
 </tr>
@@ Line 210: / Line 210: @@
    <td align="center"><math>0.9998999</math></td>
    <td align="center"><math>0.486665</math></td>
-   <td align="center"><math>-0.11597</math></td>
+   <td align="center"><math>-0.19329</math></td>
 </tr>
 </table>

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Maclaurin Toroid

Maclaurin Spheroid Reminder

Constructed Maclaurin Toroid Models

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Maclaurin Toroid

Maclaurin Spheroid Reminder

Constructed Maclaurin Toroid Models

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