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Convection in the earth's mantle: Towards a numerical simulation (1974)

D. P. McKenzie ; J. M. Roberts ; N. O. Weiss

In: J. Fluid Mech., New York, August, vol. 62, no. 3-4, pp. 465-538, pp. 1610, (ISSN: 1340-4202)

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Publication Date: 1974

Keywords: ConvolutionE ; Modelling

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BIBLIOGRAPHY SEISMOLOGY

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Problems of interior structure, the solar dynamo and the role of SCADM in providing interior diagnostics (1980)

Weiss, N. O.

In: CASI

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Publication Date: 2006-01-16

Description: What is already known about the structure of the Sun, the motion of its convective zone, and the solar cycle is reviewed. Topics discussed include solar variability, solar 'seismology', velocity patterns, magnetic fields, and the dynamo theory. Observations are needed to determine global properties (solar luminosity and radius), oscillations (p and g models), velocities (variation of rotation with time and depth), and magnetic fields.

Keywords: SOLAR PHYSICS

Type: NASA. Goddard Space Flight Center Study of the Solar Cycle from Space; p 55-64

Format: text

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NASA TECHNICAL REPORTS

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Solar magnetic fields - The generation of emerging flux (1981)

Rosner, R. ; Golub, L. ; Weiss, N. O. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: X-ray observations have provided information about magnetic fields on the sun, and the implications of these observations are discussed. The pattern of small-scale flux emergence is quite different from that of active regions. It is inferred that the small-scale fields originate fairly high in the convective zone, while the fields in active regions have a deeper origin. The small-scale turbulent fields are only loosely related to the fields that define the normal solar cycle. The way in which dynamo models must be modified in the light of these results is indicated.

Keywords: SOLAR PHYSICS

Type: Astrophysical Journal; vol. 243

Format: text

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NASA TECHNICAL REPORTS

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Kinematic models of supergranular diffusion on the Sun (1995)

Title, A. M. ; Simon, G. W. ; Weiss, N. O.

In: Other Sources

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Publication Date: 2019-08-28

Description: We develop kinematic models of diffusion generated by supergranulation at the solar surface. These models use current observations for the size, horizontal velocity, and lifetime of supergranules. Because there is no observational description of the appearance and disappearance of supergranules, we investigate models using several plausible evolution processes, including the effect of different lifetime distribution functions for the cells. The results are quite insensitive to the methods chosen to replace old supergranules, the distribution of cell lifetimes, and even the cell lifetime itself, for mean lifetimes between 15 to 30 hr. Calculated diffusion coefficients range between 500 and 700 sq km/s, in agreement with the best fit diffusion coefficients used by Sheeley and his collaborators to model the large-scale distribution of magnetic fields over the solar surface. However, our models do not explain the field distribution in plage, and they predict that virtually all the strong field in quiet Sun exists in relatively isolated clumps. We suggest possible mechanisms for the creation of plage and the bright network seen in quiet Sun.

Keywords: SOLAR PHYSICS

Type: Astrophysical Journal (ISSN 0004-637X); 442; 2 Pa; p. 886-897

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X-ray observations of sunspot penumbral structure (1992)

Sams, B. J., III ; Weiss, N. O. ; Golub, L.

In: Other Sources

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Publication Date: 2019-07-12

Description: High-resolution coronal observations with the Normal Incidence X-ray Telescope (NIXT) reveal previously unobserved structure in the magnetic fields above a sunspot. The X-ray images are precisely aligned with a continuum photospheric image taken at the same time. The X-ray brightness traces magnetic field lines and shows: (1) that none of the bright loops originate in the spot umbra and (2) that some field lines emerging from the inner penumbra connect to regions far away from the spot. Such large-scale structures must remain distinct from the shallowly inclined fields in the outer penumbra. In particular, they cannot be involved in any interchange between the bright and dark filaments. This imposes constraints on models of penumbral convection.

Keywords: SOLAR PHYSICS

Type: Astrophysical Journal, Part 1 (ISSN 0004-637X); 399; 1; p. 313-317.

Format: text

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NASA TECHNICAL REPORTS

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