| Autor: |
Swain, Anupama, Rathore, Kshitij Singh, Gupta, Pushpendra, Mishra, Abhisek, Lee, Yong Heng, Lim, Jinho, Hoffmann, Axel, Mahendiran, Ramanathan, Bedanta, Subhankar |
| Předmět: |
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| Zdroj: |
Applied Physics Letters; 7/1/2024, Vol. 125 Issue 1, p1-6, 6p |
| Abstrakt: |
Spin pumping has significant implications for spintronics, providing a mechanism to manipulate and transport spins for information processing. Understanding and harnessing spin currents through spin pumping is critical for the development of efficient spintronic devices. The use of a magnetic insulator with low damping enhances the signal-to-noise ratio in crucial experiments such as spin-torque ferromagnetic resonance (FMR) and spin pumping. A magnetic insulator coupled with a heavy metal or quantum material offers a more straightforward model system, especially when investigating spin-charge interconversion processes to greater accuracy. This simplicity arises from the absence of unwanted effects caused by conduction electrons unlike in ferromagnetic metals. Here, we investigate the spin pumping in coupled ferrimagnetic (FiM) Y3Fe5O12 (YIG)/Tm3Fe5O12 (TmIG) bilayers combined with heavy-metal (Pt) using the inverse spin Hall effect. It is observed that magnon transmission occurs at both of the FiMs FMR positions. The enhancement of spin pumping voltage (Vsp) in the FiM garnet heterostructures is observed. The plausible reason might be the interfacial exchange coupling between FiMs. The modulation of Vsp is achieved by tuning the bilayer structure. Further, the spin mixing conductance for these coupled systems is found to be ≈ 10 18 m−2. Our findings describe a coupled FiM system for the investigation of magnon coupling providing opportunities for magnonic devices. [ABSTRACT FROM AUTHOR] |
| Databáze: |
Complementary Index |
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