594 research outputs found

    Fundamental Behavior of Plates and Stiffened Plates with Welding Imperfections(Machanics, Strength & Structural Design)

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    Ultimate Strength of Stiffened Plates and Minimum Stiffness Ratio of Their Stiffeners (under Thrust)

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    Generalization of Plastic Hinge Method for Plate Problems

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    Effects of Initial Imperfection due to Welding on Rigidity and Strength of Triangular Corner Bracket

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    Dynastic Politicians: Theory and Evidence from Japan

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    Direct Observation of Magnetochiral Effects through a Single Metamolecule in Microwave Regions

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    We report direct observation of magnetochiral (MCh) effects for the X-band microwaves through a single metamolecule consisting of a copper chiral structure and ferrite rod. A fictitious interaction between chirality and magnetism is realized in the metamolecule without intrinsic electronic interactions. The MCh effects are induced at the resonant optical activities by applying a weak dc magnetic field of 1 mT, and are increased with the magnetic field. The nonreciprocal differences in refractive indices are evaluated to be 10?3 at 200 mT

    Observation of asymmetric electromagnetic field profiles in chiral metamaterials

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    We experimentally observe asymmetric electromagnetic field profiles along two-dimensional chiral metamaterials. The asymmetric field profiles depending on the chirality and the operation frequency have been reproduced well by the numerical simulation. Around a chiral meta-atom, distribution of a Poynting vector is found to be shifted asymmetrically. These results are explained in terms of an analogy with the side-jump mechanism in the electronic anomalous Hall systems

    Metamaterials with magnetism and chirality

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    This review introduces and overviews electromagnetism in structured metamaterials which undergo simultaneous time-reversal and space-inversion symmetry breaking due to magnetism and chirality. Direct experimental observation of optical magnetochiral effects in a single metamolecule with magnetism and chirality is demonstrated at microwave frequencies. Numerical simulations based on a finite element method reproduce the experimental results well, and predict the emergence of giant magnetochiral effects, by combining resonances in the metamolecule. Toward the realization of magnetochiral effects at higher frequencies than microwaves, a metamolecule is miniaturized in the presence of ferromagnetic resonance in a cavity and coplanar waveguide. This work opens the door to the realization of a one-way mirror and synthetic gauge fields for electromagnetic waves
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