Equatorial symmetry breaking and the loss of dipolarity in rapidly rotating dynamos

Garcia Ferran; Oruba Ludivine; Dormy Emmanuel

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Equatorial symmetry breaking and the loss of dipolarity in rapidly rotating dynamos

机译：赤道对称断裂和快速旋转发电机中的偶极性的损失

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Numerical studies of convection driven dynamos in rotating spherical shells exhibit a transition from steady dipolar to reversing multipolar dynamos as the forcing is increased. The dipolar-multipolar transition has so far been characterized using purely hydrodynamic parameters (Christensen and Aubert, Geophys. J. Int. 2006, 166, 97-114, Soderlund et al., Earth Planet. Sci. Lett. 2012, 333-334, 9-20, Oruba and Dormy, Geophys. Res. Lett. 2014, 41, 7115-7120). Motivated by these earlier descriptions, we investigate the hydrodynamic transitions occurring at the critical parameters. We show that the loss of dipolarity in dynamos is associated with a purely hydrodynamic transition, characterized by a breaking of the flow equatorial symmetry. Contrary to earlier expectations, we show by varying the Prandtl number that the transition is not necessarily associated with a degradation of the flow helicity.

机译：旋转球形壳中的对流驱动发电机的数值研究表现出从稳定的双极到逆转多极动力学的转变，因为迫使增加。到目前为止，Dipolar-Multi极转变已经使用纯粹的流体动力学参数（Christensen和Aubert，Geophys。J. Int.2006,166,97-114，Soderlund等，地球星球。SCI。LETT。2012,333-334 ，9-20，Oruba和宿舍，地球症。Res。Lett。2014,41,7115-7120）。通过这些早期描述的动机，我们研究了在关键参数处发生的流体动力学过渡。我们表明，发电机中的二极管的损失与纯的流体动力学转变相关，其特征在于流动赤道对称性的破裂。与早期的期望相反，我们通过改变转变不一定与流动螺旋的劣化相关的普朗特最多。

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来源
《Geophysical and Astrophysical Fluid Dynamics》 |2017年第5期|共14页
作者
Garcia Ferran; Oruba Ludivine; Dormy Emmanuel;
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作者单位

Univ Politecn Cataluna Dept Fis Barcelona Spain;

Ecole Normale Super Dept Phys Paris France;

Ecole Normale Super Dept Math &

Applicat UMR 8553 Paris France;

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原文格式 PDF
正文语种 eng
中图分类地球物理学;
关键词
Thermal convection; convection driven dynamos; rotating spherical shells; dipolar-multipolar transition; symmetry breaking;

机译：热对流;对流驱动动力;旋转球形壳;偶极多极过渡;对称断开;

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专利

1. Equatorial symmetry breaking and the loss of dipolarity in rapidly rotating dynamos [J] . Garcia Ferran, Oruba Ludivine, Dormy Emmanuel Geophysical and Astrophysical Fluid Dynamics . 2017,第5期

机译：赤道对称断裂和快速旋转发电机中的偶极性的损失
2. BREAKING OF EQUATORIAL SYMMETRY IN A ROTATING SYSTEM - A SPIRALLING INTERMITTENCY MECHANISM [J] . Brooke JM. EPL . 1997,第3期

机译：旋转系统中赤道对称性的破坏-螺旋间歇机制
3. Inverse cascade and symmetry breaking in rapidly rotating Boussinesq convection [J] . B. Favier, L. J. Silvers, M. R. E. Proctor Physics of fluids . 2014,第9期

机译：快速旋转的Boussinesq对流的逆级联和对称性破坏
4. MODULATION AND SYMMETRY-BREAKING IN LOW-ORDER MODELS OF THE SOLAR DYNAMO [C] . N.O. WEISS, E. KNOBLOCH, S.M. TOBIAS, NATO advanced research workshop on dynamo and dynamics, a mathematical challenge . 2001

机译：在太阳能发电机的低阶模型中调制和对称性
5. Extra dimensions in high energy physics: Symmetry and symmetry breaking. [D] . Biswas, Tirthabir. 2003

机译：高能物理中的额外维度：对称和对称破坏。
6. Mercury’s anomalous magnetic field caused by a symmetry-breaking self-regulating dynamo [O] . Futoshi Takahashi, Hisayoshi Shimizu, Hideo Tsunakawa -1

机译：破坏对称的自调节发电机引起的水银异常磁场
7. Breaking of Equatorial Symmetry in a Rotating System: A Spiralling Intermittency Mechanism. [O] . John M. Brooke 1997

机译：旋转系统中赤道对称性的破坏：螺旋间歇机制。

Equatorial symmetry breaking and the loss of dipolarity in rapidly rotating dynamos

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