Hiroshi Arisawa scite author profile

Hiroshi Arisawa

5Publications

60Citation Statements Received

90Citation Statements Given

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Affiliations

The University of Tokyo, Yokohama National University, Tohoku University

Publications

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Electric current control of spin helicity in an itinerant helimagnet

et al. 2020

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Chirality is breaking of mirror symmetry in matter. In the fields of biology and chemistry, this is particularly important because some of the essential molecules in life such as amino acids and DNA have chirality. It is a long-standing mystery how one of the enantiomers was chosen at the beginning stage of life 1,2 . The understanding of the emergence of homochirality under some conditions is indispensable for the study of the origin of life as well as pharmaceutical science. The chirality is also emergent in magnetic structures. The longitudinal helical magnetic structure is the chiral object composed of magnetic moments, in which the ordered direction of the magnetic moment spatially rotates in the plane perpendicular to the propagation vector ( Fig. 1a). Since the sense of rotation, which is denoted as helicity, is reversed by any mirror operation, it is corresponding to the chirality.Here we show that the chirality of a longitudinal helical structure can be controlled by the magnetic field and electric current owing to the spin-transfer torque irrelevant to the spin-orbit interaction and probed by electrical magnetochiral effect, which is sensitive to the chiral symmetry breaking, in an itinerant helimagnet MnP. This phenomenon is distinct from the multiferroicity in transversetype insulating helical magnets 3-6 , in which the helical plane is parallel to the propagation vector, because the magnetic structure has polar symmetry not chiral one. While the combination of the magnetic field and electric current satisfies the symmetrical rule of external stimulus for the chirality control 1,2 , the control with them was not reported for any chiral object previously. The present result may pave a new route to the control of chiralities originating from magnetic and atomical arrangements.

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Dielectric loss of poly(vinylidene fluoride) at low temperatures and effect of poling on the low temperature loss

1981

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Observation of spin-current striction in a magnet

et al. 2022

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The interplay among magnetization and deformation of solids has long been an important issue in magnetism, the elucidation of which has made great progress in material physics. Controlling volume and shapes of matter is now indispensable to realizing various actuators for precision machinery and nanotechnology. Here, we show that the volume of a solid can be manipulated by injecting a spin current: a spin current volume effect (SVE). By using a magnet Tb0.3Dy0.7Fe2 exhibiting strong spin-lattice coupling, we demonstrate that the sample volume changes in response to a spin current injected by spin Hall effects. Theoretical calculation reflecting spin-current induced modulation of magnetization fluctuation well reproduces the experimental results. The SVE expands the scope of spintronics into making mechanical drivers.

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Human Modelling and Design of Spatio-Temporal Queries on 3D Video Database

Tomii

Imai

Arisawa

1998

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Motion Simulation of the Human Workers for the Integrated Computer-Aided Manufacturing Process Simulation Based on Info-Ergonomics Concept

Imai

Tomii

Arisawa

2002

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Hiroshi Arisawa

Electric current control of spin helicity in an itinerant helimagnet

Dielectric loss of poly(vinylidene fluoride) at low temperatures and effect of poling on the low temperature loss

Observation of spin-current striction in a magnet

Human Modelling and Design of Spatio-Temporal Queries on 3D Video Database

Motion Simulation of the Human Workers for the Integrated Computer-Aided Manufacturing Process Simulation Based on Info-Ergonomics Concept

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