K. Fujimoto scite author profile

We have developed a high-field and high-frequency ESR system using a commercially available magnetometer equipped with the superconducting quantum interference device (SQUID). This is magnetization detection type ESR and ESR is observed as a change of the magnetization at the resonance condition under irradiation of the electromagnetic wave. The frequency range is from 70 to 315 GHz and the maximum magnetic field is 5 T. The sensitivity is estimated to be 10 13 spins/G. The advantage of this system is that the high-field ESR measurements can be made very easily and quantitatively. Moreover, this high-field ESR can be applied to the measurements under pressure by using a widely used piston-cylinder pressure cell.

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Electric-field induced magnetization in YIG observed by Faraday rotation

Fujimoto

Hasunuma

Kohmoto

2019

J. Phys.: Conf. Ser.

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We studied the electric-field induced magnetization caused by the magnetoelectric effect in YIG. The magnetization was observed as the Faraday rotation of a transmitted continuous-wave probe light. From the observed dependence of the Faraday-rotation amplitude on the electric and magnetic fields, it was found that the two components linear and quadratic in the electric field coexist at low temperatures.

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K. Fujimoto

Development of multi-frequency ESR system for high-pressure measurements up to 2.5 GPa

Development of high-pressure and high-field ESR system using SQUID magnetometer

Development of Hybrid-Type Pressure Cell for High-Pressure and High-Field ESR Measurement

Development of High-Field ESR System Using SQUID Magnetometer and its Application to Measurement under High Pressure

Electric-field induced magnetization in YIG observed by Faraday rotation

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