Irreversible magnetic-field dependence of ferromagnetic resonance and inverse spin Hall effect voltage in CoFeB/Pt bilayer

2017 ◽  
Vol 421 ◽  
pp. 189-193
Author(s):  
Sang-Il Kim ◽  
Min-Su Seo ◽  
Yeon Suk Choi ◽  
Seung-Young Park
Keyword(s):  
Magnetic Field ◽  
Hall Effect ◽  
Field Dependence ◽  
Ferromagnetic Resonance ◽  
Magnetic Field Dependence ◽  
Spin Hall Effect ◽  
Inverse Spin Hall Effect

Magnetic field dependence of the device-width-dependent breakdown current in the quantum Hall effect

1994 ◽  
Vol 305 (1-3) ◽  
pp. 161-165 ◽  
Author(s):  
S. Kawaji ◽  
K. Hirakawa ◽  
M. Nagata ◽  
T. Okamoto ◽  
T. Fukase ◽  
...  
Keyword(s):  
Magnetic Field ◽  
Hall Effect ◽  
Field Dependence ◽  
Quantum Hall Effect ◽  
Magnetic Field Dependence ◽  
Quantum Hall

scholarly journals Ферромагнитных резонанс в прохождении электромагнитных волн через металлические сверхрешетки

2021 ◽  
Vol 91 (6) ◽  
pp. 995
Author(s):  
А.Б. Ринкевич ◽  
Е.А. Кузнецов ◽  
Д.В. Перов ◽  
М.А. Миляев ◽  
Л.Н. Ромашев
Keyword(s):  
Magnetic Field ◽  
Transmission Coefficient ◽  
Field Dependence ◽  
Ferromagnetic Resonance ◽  
Resonance Line ◽  
Magnetic Field Dependence ◽  
Microwave Transmission ◽  
Giant Magnetoresistive Effect ◽  
Magnetoresistive Effect ◽  
Dispersion Line

Variations of microwave transmission coefficient through Fe films and Fe/Cr superlattices have been studied caused by ferromagnetic resonance at frequencies from 26 to 38 GHz. The shape of resonance line is described in frames of the model where its asymmetry is obtained by adding of lorenzian dispersion line to the absorption line. It has been shown that the shape of resonance line for superlattices with continuous Fe and Cr layers and also for Fe films is well described in this model. For the superlattices with thin Fe or Cr layers only qualitative agreement is observed. In magnetic fields less than the field of ferromagnetic resonance, essential distinction is observed of experimental magnetic field dependence of transmission coefficient comparing to the model, for superlattices which have giant magnetoresistive effect.

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