Akika Nakamichi scite author profile

A topological version of four-dimensional (Euclidean) Einstein gravity which we propose regards anti-self-dual two-forms and an anti-self-dual part of the frame connections as fundamental fields. The theory describes the moduli spaces of conformally self-dual Einstein manifolds for a cosmological constant A # 0 case and an Einstein-Kahlerian manifold with the vanishing real first Chern class for A = 0. In the A # 0 case, we evaluate the index of the elliptic complex associated with the moduli space and calculate the partition function. We also clarify the moduli space and its dimension for A = 0 which are related to Plebansky's heavenly equations.PACS number(s): 04.50.th, 04.20.Jb

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Domino model for geomagnetic field reversals

Mori

Schmitt

Ferriz-Mas

et al. 2013

Phys. Rev. E

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We solve the equations of motion of a one-dimensional planar Heisenberg (or Vaks-Larkin) model consisting of a system of interacting macro-spins aligned along a ring. Each spin has unit length and is described by its angle with respect to the rotational axis. The orientation of the spins can vary in time due to spin-spin interaction and random forcing. We statistically describe the behavior of the sum of all spins for different parameters. The term "domino model" in the title refers to the interaction among the spins.We compare the model results with geomagnetic field reversals and dynamo simulations and find strikingly similar behavior. The aggregate of all spins keeps the same direction for a long time and, once in a while, begins flipping to change the orientation by almost 180 degrees (mimicking a geomagnetic reversal) or to move back to the original direction (mimicking an excursion). Most of the time the spins are aligned or anti-aligned and deviate only slightly with respect to the rotational axis (mimicking the secular variation of the geomagnetic pole with respect to the geographic pole). Reversals are fast compared to the times in between and they occur at random times, both in the model and in the case of the Earth's magnetic field.

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Universal non-Gaussian velocity distribution in violent gravitational processes

et al. 2005

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We study the velocity distribution in spherical collapses and cluster-pair collisions by use of N -body simulations. Reflecting the violent gravitational processes, the velocity distribution of the resultant quasistationary state generally becomes non-Gaussian. Through the strong mixing of the violent process, there appears a universal non-Gaussian velocity distribution, which is a democratic (equal-weighted) superposition of many Gaussian distributions (DT distribution). This is deeply related with the local virial equilibrium and the linear mass-temperature relation which characterize the system. We show the robustness of this distribution function against various initial conditions which leads to the violent gravitational process. The DT distribution has a positive correlation with the energy fluctuation of the system. On the other hand, the coherent motion such as the radial motion in the spherical collapse and the rotation with the angular momentum suppress the appearance of the DT distribution.

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Moduli Space of Topological Two-Form Gravity

1994

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Akika Nakamichi

Gravitational instantons and moduli spaces in topological two-form gravity

Domino model for geomagnetic field reversals

Universal non-Gaussian velocity distribution in violent gravitational processes

Moduli Space of Topological Two-Form Gravity

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