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Theoretical approach to evolution of solar magnetic field (1985)

Nakagawa, Y.

In: CASI

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Publication Date: 2006-02-14

Description: Theoretical approaches to the evolution of solar atmosphere magnetic field are briefly reviewed from the standpoint of the physical significance. A new direction of analysis based on the possible manners of generation of electric current is considered, and its physical implications are discussed.

Keywords: SOLAR PHYSICS

Type: NASA. Marshall Space Flight Center Meas. of Solar Vector Magnetic Fields; p 78-85

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Evolution of solar magnetic fields - A new approach to MHD initial-boundary value problems by the method of nearcharacteristics (1980)

Nakagawa, Y.

In: Other Sources

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Publication Date: 2011-08-18

Description: A method of analysis for the MHD initial-boundary problem is presented in which the model's formulation is based on the method of nearcharacteristics developed by Werner (1968) and modified by Shin and Kot (1978). With this method, the physical causality relationship can be traced from the perturbation to the response as in the method of characteristics, while achieving the advantage of a considerable reduction in mathematical procedures. The method offers the advantage of examining not only the evolution of nonforce free fields, but also the changes of physical conditions in the atmosphere accompanying the evolution of magnetic fields. The physical validity of the method is demonstrated with examples, and their significance in interpreting observations is discussed.

Keywords: SOLAR PHYSICS

Type: Astrophysical Journal; vol. 240

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3

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Quantitative representation of nonrepetitive temporal behavior (1980)

Teuber, D. L. ; Nakagawa, Y.

In: Other Sources

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Publication Date: 2011-08-17

Description: Analytical representations suitable to analyze the nonrepetitive pulse-like temporal behavior of physical quantities are derived. The representation utilizes solutions of a linear model equation in which the temporal variation is subject to time-dependent driving and dissipative forces. The property of solutions is described, and it is shown that such representations can provide a basis for quantitative comparisons of behaviors and a basis for physically meaningful interpretations of the results. Observations of solar flares in the soft X-ray flux have been analyzed with this method.

Keywords: SOLAR PHYSICS

Type: Physics of Fluids; 23; July 198

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4

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Energy balance in a magnetically confined coronal structure observed by OSO-7 (1975)

Nakagawa, Y. ; Rust, D. M. ; Neupert, W. M.

In: Other Sources

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Publication Date: 2011-08-16

Description: A model of a coronal region of enhanced Fe XV and Fe XVI emission is developed and its energy balance is examined using extreme ultraviolet observations from OSO-7 together with calculations of possible force-free coronal magnetic field configurations. The coronal emissions overlying the photospheric boundary between regions of opposite magnetic polarity are found to be associated with generally nonpotential (current-carrying) magnetic fields in the forms of arches with footpoints in regions of opposite polarity. The orientation of these arches relative to the neutral line changes with degree of ionization of the emitting ion (which we infer from our limb observations to be a function of height) and may be evidence of differing electric currents along various field lines. The appearance of a coronal arch, seen side-on, can conveniently be represented by a parabola and a detailed analysis shows this to be a realistic approximation that should be generally useful in analyzing two-dimensional pictures of coronal structures.

Keywords: SOLAR PHYSICS

Type: Solar Physics; 43; Aug. 197

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SOME RESULTS ON HEAT TRANSPORT BY CONVECTION IN THE PRESENCE OF A MAGNETIC FIELD (1960)

Nakagawa, Y.

In: Other Sources

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Publication Date: 2012-07-26

Description: Results on thermal transport by convection in the presence of a magnetic field

Keywords: NAVIGATION

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Evolution of magnetic field and atmospheric response. I - Three-dimensional formulation by the method of projected characteristics. II - Formulation of proper boundary equations (1981)

Nakagawa, Y.

In: Other Sources

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Publication Date: 2011-08-18

Description: The method described as the method of nearcharacteristics by Nakagawa (1980) is renamed the method of projected characteristics. Making full use of properties of the projected characteristics, a new and simpler formulation is developed. As a result, the formulation for the examination of the general three-dimensional problems is presented. It is noted that since in practice numerical solutions must be obtained, the final formulation is given in the form of difference equations. The possibility of including effects of viscous and ohmic dissipations in the formulation is considered, and the physical interpretation is discussed. A systematic manner is then presented for deriving physically self-consistent, time-dependent boundary equations for MHD initial boundary problems. It is demonstrated that the full use of the compatibility equations (differential equations relating variations at two spatial locations and times) is required in determining the time-dependent boundary conditions. In order to provide a clear physical picture as an example, the evolution of axisymmetric global magnetic field by photospheric differential rotation is considered.

Keywords: ASTROPHYSICS

Type: Astrophysical Journal; vol. 247

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Heating during solar nebula formation and Mg isotopic fractionation in precursor grains of CAIs and chondrules (1994)

Nagahara, H. ; Sasaki, S. ; Nakagawa, Y. ; [et al.]

In: Other Sources

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Publication Date: 2019-01-25

Description: In some Ca-Al-rich inclusion (CAI) grains, mass-dependent isotopic fractionations of Mg, Si, and O are observed and large Mg isotopic fractionation is interpreted to have been produced by cosmochemical processes such as evaporation and condensation. Mass-dependent Mg isotopic fractionation was found in olivine chondrules of Allende meteorites. Presented is an approximate formula for the temperature of the solar nebula that depends on heliocentric distance and the initial gas distribution. Shock heating during solar nebula formation can cause evaporative fractionation within interstellar grains involved in a gas at the inner zone (a less than 3 AU) of the disk. Alternatively collision of late-accreting gas blobs might cause similar heating if Sigma(sub s) and Sigma are large enough. Since the grain size is small, the solid/gas mass ratio is low and solar (low P(sub O2)), and the ambient gas pressure is low, this heating event could not produce chondrules themselves. Chondrule formation should proceed around the disk midplane after dust grains would grow and sediment to increase the solid/gas ratio there. The heating source there is uncertain, but transient rapid accretion through the disk could release a large amount of heat, which would be observed as FU Orionis events.

Keywords: SOLAR PHYSICS

Type: Lunar and Planetary Inst., Papers Presented to the Conference on Chondrules and the Protoplanetary Disk; p 35-36

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Induced mass and wave motions in the lower solar atmosphere. I - Effects of shear motion of flux tubes (1983)

Hu, Y. Q. ; Tandberg-Hanssen, E. ; Wu, S. T. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Observations indicate that various dynamic solar phenomena lead to enhanced emission of electromagnetic waves from radio to X-ray wavelengths which can be traced to magnetic activity in the photospheric level. A number of previous investigations have ignored the dynamic responses in the solar atmosphere. On the other hand, Nakagawa et al. (1978, 1981) have studied the atmospheric responses in the frame of MHD in the supersonic super-Alfvenic region. Studies of the slowly varying dynamic response (subsonic) have been unsuccessful because of the requirements of high accuracy in the numerical scheme in which a rigorous mathematical treatment of the boundary conditions is necessary. Recently, a numerical MHD model was constructed by using the full implicit continuous eulerian method. The present investigation makes use of a method which is written in a more convenient numerical code. A two-dimensional, time-dependent, nonplanar MHD model is used to investigate the induced mass and wave motions in the lower solar atmosphere due to the shear motion of flux tubes.

Keywords: SOLAR PHYSICS

Type: Astrophysical Journal; vol. 266

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9

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The preflare state (1980)

Barbosa, D. D. ; Jackson, B. V. ; Van Hoven, G. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: The accumulation, storage and irreversible release of the free energy necessary for a solar flare are discussed on the basis of data obtained from the Apollo Telescope Mount on Skylab and other pertinent sources. Skylab and OSO 7 observations of possible flare precursors and flare evolution are presented, and the evolution of the flare of Sept. 5, 1973, the most completely observed flare of the Skylab program, is described in detail, with account given to magnetic structures and H alpha radiation. Theories of the preflare state are then reviewed, with attention given to the force-free fields and coronal arcades, thermal and magnetic structures and the MHD stability of coronal loops.

Keywords: SOLAR PHYSICS

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10

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Numerical experimentation on spherically symmetric one-dimensional magnetohydrodynamic /MHD/ wave propagation (1982)

Han, S. M. ; Wu, S. T. ; Nakagawa, Y.

In: Other Sources

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Publication Date: 2019-06-28

Description: Radial propagation of one-dimensional magnetohydrodynamic (MHD) waves are analyzed numerically on the basis of the Implicit-Continuous-Fluid-Eulerian (ICE) scheme. Accuracy of the numerical method and other properties are tested through the study of MHD wave propagation. The three different modes of MHD waves (i.e., fast-, slow- and Alfven (transverse) mode) are generated by applying physically consistent boundary perturbations derived from MHD compatibility relations. It is shown that the resulting flow following these waves depend upon the relative configurations of the initial magnetic field and boundary perturbations.

Keywords: PLASMA PHYSICS

Type: Computers and Fluids; 10; 3, 19; 1982

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