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Thermal convection, magnetic field, ...

Hotta, Hideyuki.

Thermal convection, magnetic field, and differential rotation in solar-type stars[electronic resource] /

レコード種別:	言語・文字資料 (印刷物) : 単行資料
[NT 15000414] null:	523.8
タイトル / 著者:	Thermal convection, magnetic field, and differential rotation in solar-type stars/ by Hideyuki Hotta.
著者:	Hotta, Hideyuki.
出版された:	Tokyo : : Springer Japan :, 2015.
記述:	xii, 81 p. : : ill. (some col.), digital ;; 24 cm.
含まれています:	Springer eBooks
主題:	Planetology.
主題:	Stars.
主題:	Stars - Temperature.
主題:	Stars - Rotation.
主題:	Physics.
主題:	Extraterrestrial Physics, Space Sciences.
国際標準図書番号 (ISBN) :	9784431553991 (electronic bk.)
国際標準図書番号 (ISBN) :	9784431553984 (paper)
[NT 15000228] null:	General Introduction -- Basic Equations and Development of Numerical Code -- Structure of Convection and Magnetic Field without Rotation -- Reproduction of Near Surface Shear Layer with Rotation -- Concluding Remarks -- Appendix.
[NT 15000229] null:	This thesis describes the studies on the solar interior where turbulent thermal convection plays an important role. The author solved, for the first time, one of the long-standing issues in solar physics, i.e., the maintenance mechanism of the solar differential rotation in the near-surface shear layer. The author attacked this problem with a newly developed approach, the reduced speed of sound technique, which enabled him to investigate the surface and deep solar layers in a self-consistent manner. This technique also made it possible to achieve an unprecedented performance in the solar convection simulations for the usage of the massively parallel supercomputers such as the RIKEN K system. It was found that the turbulence and the mean flows such as the differential rotation and the meridional circulation mutually interact with each other to maintain the flow structures in the Sun. Recent observations by helioseismology support the author's proposed theoretical mechanism. The book also addresses the generation of the magnetic field in such turbulent convective motions, which is an important step forward for solar cyclic dynamo research.
電子資源:	http://dx.doi.org/10.1007/978-4-431-55399-1

Thermal convection, magnetic field, and differential rotation in solar-type stars[electronic resource] /
Hotta, Hideyuki.

Thermal convection, magnetic field, and differential rotation in solar-type stars[electronic resource] /by Hideyuki Hotta. - Tokyo :Springer Japan :2015. - xii, 81 p. :ill. (some col.), digital ;24 cm. - Springer theses,2190-5053. - Springer theses..

General Introduction -- Basic Equations and Development of Numerical Code -- Structure of Convection and Magnetic Field without Rotation -- Reproduction of Near Surface Shear Layer with Rotation -- Concluding Remarks -- Appendix.

This thesis describes the studies on the solar interior where turbulent thermal convection plays an important role. The author solved, for the first time, one of the long-standing issues in solar physics, i.e., the maintenance mechanism of the solar differential rotation in the near-surface shear layer. The author attacked this problem with a newly developed approach, the reduced speed of sound technique, which enabled him to investigate the surface and deep solar layers in a self-consistent manner. This technique also made it possible to achieve an unprecedented performance in the solar convection simulations for the usage of the massively parallel supercomputers such as the RIKEN K system. It was found that the turbulence and the mean flows such as the differential rotation and the meridional circulation mutually interact with each other to maintain the flow structures in the Sun. Recent observations by helioseismology support the author's proposed theoretical mechanism. The book also addresses the generation of the magnetic field in such turbulent convective motions, which is an important step forward for solar cyclic dynamo research.

ISBN: 9784431553991 (electronic bk.)

Standard No.: 10.1007/978-4-431-55399-1doiSubjects--Topical Terms:

465086
Planetology.

LC Class. No.: QB801

Dewey Class. No.: 523.8

Thermal convection, magnetic field, and differential rotation in solar-type stars[electronic resource] /
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245 1 0 $a Thermal convection, magnetic field, and differential rotation in solar-type stars $h [electronic resource] / $c by Hideyuki Hotta.
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300 $a xii, 81 p. : $b ill. (some col.), digital ; $c 24 cm.
490 1 $a Springer theses, $x 2190-5053
505 0 $a General Introduction -- Basic Equations and Development of Numerical Code -- Structure of Convection and Magnetic Field without Rotation -- Reproduction of Near Surface Shear Layer with Rotation -- Concluding Remarks -- Appendix.
520 $a This thesis describes the studies on the solar interior where turbulent thermal convection plays an important role. The author solved, for the first time, one of the long-standing issues in solar physics, i.e., the maintenance mechanism of the solar differential rotation in the near-surface shear layer. The author attacked this problem with a newly developed approach, the reduced speed of sound technique, which enabled him to investigate the surface and deep solar layers in a self-consistent manner. This technique also made it possible to achieve an unprecedented performance in the solar convection simulations for the usage of the massively parallel supercomputers such as the RIKEN K system. It was found that the turbulence and the mean flows such as the differential rotation and the meridional circulation mutually interact with each other to maintain the flow structures in the Sun. Recent observations by helioseismology support the author's proposed theoretical mechanism. The book also addresses the generation of the magnetic field in such turbulent convective motions, which is an important step forward for solar cyclic dynamo research.
650 2 4 $a Planetology. $3 465086
650 0 $a Stars. $3 605795
650 0 $a Stars $x Temperature. $3 606579
650 0 $a Stars $x Rotation. $3 606580
650 1 4 $a Physics. $3 171863
650 2 4 $a Extraterrestrial Physics, Space Sciences. $3 464218
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856 4 0 $u http://dx.doi.org/10.1007/978-4-431-55399-1
950 $a Physics and Astronomy (Springer-11651)

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http://dx.doi.org/10.1007/978-4-431-55399-1

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