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1

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Galactic bridges and tails. (1972)

Toomre, A. ; Toomre, J.

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Publication Date: 2011-08-16

Description: This paper argues that the bridges and tails seen in some multiple galaxies are just tidal relics of close encounters. These consequences of the brief but violent tidal forces are here studied in a deliberately simple-minded fashion. Each encounter is considered to involve only two galaxies and to be roughly parabolic; each galaxy is idealized as just a disk of noninteracting test particles which initially orbit a central mass point. As shown here, the two-sided distortions provoked by gravity alone in such circumstances can indeed evolve kinematically into some remarkably narrow and elongated features. Besides extensive pictorial survey of tidal damage, this paper offers reconstructions of the orbits and outer shapes of four specific interacting pairs: Arp 295, M51 + NGC 5195, NGC 4676, and NGC 4038/9.

Keywords: SPACE SCIENCES

Type: Astrophysical Journal; 178; Dec. 15

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2

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Nonlinear cellular motions in Poiseuille channel flow (1974)

Toomre, J. ; Zahn, J.-P. ; Gough, D. O. ; [et al.]

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Publication Date: 2019-06-27

Description: In a number of nonlinear solutions to the equations of channel flow the velocity is decomposed into a mean part plus a nonlinear disturbance. The idea that nonlinear effects place a limitation on the amplitudes of the disturbance flow is considered. In the reported investigation the disturbance flow is represented by drastically limited Fourier expansions in the downstream coordinate. The resulting equations are solved numerically with high accuracy to obtain a good representation of the cross-stream structure of the solution. The results of the investigation show that indeed the nonlinear terms always limit the amplitude of the disturbance flow in this approximation.

Keywords: FLUID MECHANICS

Type: Journal of Fluid Mechanics; 64; June 19

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3

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Modal equations for cellular convection (1975)

Spiegel, E. A. ; Toomre, J. ; Gough, D. O.

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Publication Date: 2019-06-27

Description: We expand the fluctuating flow variables of Boussinesq convection in the planform functions of linear theory. Our proposal is to consider a drastic truncation of this expansion as a possible useful approximation scheme for studying cellular convection. With just one term included, we obtain a fairly simple set of equations which reproduces some of the qualitative properties of cellular convection and whose steady-state form has already been derived by Roberts (1966). This set of 'modal equations' is analyzed at slightly supercritical and at very high Rayleigh numbers. In the latter regime the Nusselt number varies with Rayleigh number just as in the mean-field approximation with one horizontal scale when the boundaries are rigid. However, the Nusselt number now depends also on the Prandtl number in a way that seems compatible with experiment. The chief difficulty with the approach is the absence of a deductive scheme for deciding which planforms should be retained in the truncated expansion.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: Journal of Fluid Mechanics; 68; Apr. 29

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4

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Convective instability when the temperature gradient and rotation vector are oblique to gravity. I - Fluids without diffusion (1979)

Hathaway, D. H. ; Gilman, P. A. ; Toomre, J.

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Publication Date: 2019-06-28

Description: A linear stability analysis of fluid layers under uniform rotation (generally oblique to gravity) which possess both vertical and horizontal temperature gradients is made by considering ideal fluids without diffusion within a Boussinesq approximation. This simplified configuration is used to assess the preferred convective modes as a function of latitude on a planet like Jupiter. The tilted rotation vector introduces a preference for roll-like disturbances with north-south orientations, while the horizontal temperature gradient produces a thermal wind shear which favors convective rolls oriented parallel to the flow in an east-west direction. It is found that the horizontal temperature gradient needed to produce a preference for the axisymmetric or east-west rolls increases with an increasing rotation rate and a decreasing latitude. The parameter values for Jupiter are estimated with the use of a simple radiative convective model, indicating a preference for axisymmetric rolls at nearly all latitudes if the convection zone depth is greater than about 200 km below the one atmosphere pressure level and convective roll characteristics which contribute to an equatorial acceleration.

Keywords: GEOSCIENCES (GENERAL)

Type: AD-A085390 , AFGL-TR-80-0103 , Geophysical and Astrophysical Fluid Dynamics; 13; 4, 19; 1979

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5

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Stellar convection theory. II - Single-mode study of the second convection zone in an A-type star (1976)

Latour, J. ; Toomre, J. ; Spiegel, E. A. ; [et al.]

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Publication Date: 2019-06-27

Keywords: ASTROPHYSICS

Type: Astrophysical Journal; 207; July 15

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6

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Numerical solutions of single-mode convection equations (1977)

Spiegel, E. A. ; Toomre, J. ; Gough, D. O.

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Publication Date: 2019-06-27

Description: In the Boussinesq approximation, single-mode equations describing thermal convection are constructed by expanding the fluctuating velocity and temperature fields in a complete set of functions (or planforms) of the horizontal coordinates and retaining just one term. Numerical solutions of the single-mode equations are investigated, chief consideration being given to hexagonal planforms. Extensive surveys of steady solutions are presented for various Rayleigh numbers, Prandtl numbers, and horizontal wavenumbers. The dependences on Rayleigh number and Prandtl number at very large Rayleigh number are in satisfactory agreement with the results of asymptotic expansions.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: Journal of Fluid Mechanics; 79; Jan. 20

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7

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Stellar convection theory. I - The anelastic modal equations (1976)

Toomre, J. ; Spiegel, E. A. ; Zahn, J.-P. ; [et al.]

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Publication Date: 2019-06-27

Description: Methods are developed for dealing with the various dynamical problems that arise because of convective zones in stars. A system of equations for stellar convection is derived from the full equations of compressible fluid dynamics with the aid of two major approximations. The first of these is the anelastic approximation, which involves both the filtering out of acoustic waves and a suitable linearization of the fluctuating thermodynamic variables. The second one approximates the horizontal structure of convection by expanding the motion in a set of horizontal cellular platforms and severely truncating the expansion. The resulting system of partial differential equations, referred to as the anelastic modal equations, is outlined along with suggested boundary conditions and techniques for solving the equations. Ways of assessing the overall validity of the present treatment are discussed.

Keywords: ASTROPHYSICS

Type: Astrophysical Journal; 207; July 1

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8

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The height variation of supergranular velocity fields determined from simultaneous OSO 8 satellite and ground-based observations (1979)

Simon, G. W. ; November, L. J. ; Gebbie, K. B. ; [et al.]

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Publication Date: 2019-06-27

Description: Results are reported for simultaneous satellite and ground-based observations of supergranular velocities in the sun, which were made using a UV spectrometer aboard OSO 8 and a diode-array instrument operating at the exit slit of an echelle spectrograph attached to a vacuum tower telescope. Observations of the steady Doppler velocities seen toward the limb in the middle chromosphere and the photosphere are compared; the observed spectral lines of Si II at 1817 A and Fe I at 5576 A are found to differ in height of formation by about 1400 km. The results show that supergranular motions are able to penetrate at least 11 density scale heights into the middle chromosphere, that the patterns of motion correlate well with the cellular structure seen in the photosphere, and that the motion increases from about 800 m/s in the photosphere to at least 3000 m/s in the middle chromosphere. These observations imply that supergranular velocities should be evident in the transition region and that strong horizontal shear layers in supergranulation should produce turbulence and internal gravity waves.

Keywords: SOLAR PHYSICS

Type: PB-294163 , Astrophysical Journal; vol. 227

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