magnetization dynamics
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2022 ◽  
Vol 131 (2) ◽  
pp. 023901
Author(s):  
Satoshi Iihama ◽  
Kazuaki Ishibashi ◽  
Shigemi Mizukami

Author(s):  
Kakeru Tojo ◽  
Akira NAGAKUBO ◽  
Hirotsugu OGI

Abstract The dynamics of magnetization is important in spintronics, where the coupling between phonon and magnon attracts much attention. In this work, we study the angular dependence of the coupling between longitudinal-wave phonon and magnon. We investigated the magnetization dynamics using the time-resolved magneto-optical Kerr effect, which allows measuring spin-wave resonances and the magnetic echo signal. The frequency, mode number, and amplitude of the spin-wave resonance change with the out-of-plane angle of the external magnetic field. The amplitude of the magnetic echo signal caused by the strain pulse also changes with the angle. We calculate these angular dependences based on the Landau-Lifshitz-Gilbert equation and find that the angles of the external field and magnetic moment are important factors for the phonon-magnon coupling when phonon propagates in the thickness direction under the out-of-plane magnetic field.


2022 ◽  
Vol 120 (1) ◽  
pp. 012407
Author(s):  
Thinh Q. Bui ◽  
Adam J. Biacchi ◽  
Cindi L. Dennis ◽  
Weston L. Tew ◽  
Angela R. Hight Walker ◽  
...  

2021 ◽  
Vol 104 (23) ◽  
Author(s):  
Nitin Kaushal ◽  
Jacek Herbrych ◽  
Gonzalo Alvarez ◽  
Elbio Dagotto

2021 ◽  
Vol 6 ◽  
pp. 100124
Author(s):  
Anup Kumar Bera ◽  
Pooja Gupta ◽  
Debi Garai ◽  
Ajay Gupta ◽  
Dileep Kumar

Author(s):  
Meihong Liu ◽  
Qiuyue Li ◽  
Chengkun Song ◽  
Hongmei Feng ◽  
Yawen Song ◽  
...  

Author(s):  
Yang Liu ◽  
Le Tuan Anh Ho ◽  
Guo‐Zhang Huang ◽  
Yan‐Cong Chen ◽  
Liviu Ungur ◽  
...  

2021 ◽  
Author(s):  
Yang Liu ◽  
Le Tuan Anh Ho ◽  
Guo‐Zhang Huang ◽  
Yan‐Cong Chen ◽  
Liviu Ungur ◽  
...  

Author(s):  
Maxim Vladimirovich Bakhmetiev ◽  
Artem Dmitrievich Talantsev ◽  
Alexandr Sadovnikov ◽  
Roman Morgunov

Abstract A set of partially uncoupled NiFe/Cu/IrMn exchange biased thin films with variable thickness of non-magnetic Cu spacer is characterized by ferromagnetic resonance (FMR) and Brillouin light scattering (BLS) techniques applied complementary to reveal time-scale dependent effects of uncoupling between ferromagnetic and antiferromagnetic layers on high-frequency magnetization dynamics. The results correlate with interfacial grain texture variations and static magnetization behavior. Two types of crystalline phases with correlated microwave response are revealed at the ferro-antiferromagnet interface in NiFe/Cu/IrMn thin films. The first phase forms as well-textured NiFe/IrMn grains with NiFe (111)/IrMn (111) interface. The second phase consists of amorphous NiFe/IrMn grains. Intercalation of NiFe/IrMn by Cu clusters results in relaxation of tensile strains at the NiFe/IrMn interface leading to larger size of grains in both the NiFe and IrMn layers. The contributions of well-textured and amorphous grains to the high-frequency magnetization reversal behavior are distinguished by FMR and BLS techniques. Generation of a spin-wave mode is revealed in the well-textured phase, whereas microwave response of the amorphous phase is found to originate from magnetization rotation dominated by a rotatable magnetic anisotropy term. Under fixed FMR frequency, the increase of Cu thickness results in higher magnetization rotation frequencies in the amorphous grains.


2021 ◽  
Vol 12 (1) ◽  
Author(s):  
Sergey Zayko ◽  
Ofer Kfir ◽  
Michael Heigl ◽  
Michael Lohmann ◽  
Murat Sivis ◽  
...  

AbstractLight-induced magnetization changes, such as all-optical switching, skyrmion nucleation, and intersite spin transfer, unfold on temporal and spatial scales down to femtoseconds and nanometers, respectively. Pump-probe spectroscopy and diffraction studies indicate that spatio-temporal dynamics may drastically affect the non-equilibrium magnetic evolution. Yet, direct real-space magnetic imaging on the relevant timescales has remained challenging. Here, we demonstrate ultrafast high-harmonic nanoscopy employing circularly polarized high-harmonic radiation for real-space imaging of femtosecond magnetization dynamics. We map quenched magnetic domains and localized spin structures in Co/Pd multilayers with a sub-wavelength spatial resolution down to 16 nm, and strobosocopically trace the local magnetization dynamics with 40 fs temporal resolution. Our compact experimental setup demonstrates the highest spatio-temporal resolution of magneto-optical imaging to date. Facilitating ultrafast imaging with high sensitivity to chiral and linear dichroism, we envisage a wide range of applications spanning magnetism, phase transitions, and carrier dynamics.


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