Title :
Interactive magnetic coupling between spin precession and split-ring resonator in the terahertz frequency
Author :
Kurihara, Takashi ; Nakamura, Kentaro ; Yamaguchi, Kazuhiro ; Sekine, Yasuhito ; Saito, Yuya ; Nakajima, Masahiro ; Oto, K. ; Watanabe, Hiromi ; Suemoto, T.
Author_Institution :
Institue for Solid State Phys., Univ. of Tokyo, Kashiwa, Japan
Abstract :
Terahertz metamaterial technique enables a sophisticated electromagnetic excitation of materials. Here, we demonstrate resonant excitation of spin precession motion of canted antiferromagnet ErFeO3 using the magnetic near-field produced by split ring resonator (SRR). When the resonance frequency of spin precession was near the magnetic resonance mode of SRR, we observed substantial increase of precession amplitude. The time evolution of spin motion can be successfully reproduced by a model that takes into account an interactive coupling between spin- and SRR-resonance mediated by magnetic near-field. Results indicate that bidirectional coupling between spin and SRR is essential in understanding the system.
Keywords :
magnetic resonance; resonators; terahertz metamaterials; ErFeO3; SRR resonance; bidirectional coupling; electromagnetic excitation; interactive coupling; interactive magnetic coupling; magnetic near-field; magnetic resonance mode; precession amplitude; resonance frequency; resonant excitation; spin precession motion; spin resonance; split-ring resonator; terahertz frequency; terahertz metamaterial technique; Couplings; Equations; Magnetic fields; Magnetic resonance; Mathematical model; Temperature measurement;
Conference_Titel :
Infrared, Millimeter, and Terahertz waves (IRMMW-THz), 2014 39th International Conference on
Conference_Location :
Tucson, AZ
DOI :
10.1109/IRMMW-THz.2014.6956186
