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Dense plasma irradiated platinum with improved spin Hall effect

URI
https://hdl.handle.net/10497/26809
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Type
Article
Files
 SPIN-2023-400246.pdf (1.44 MB)
Other titles
Pulsed hot dense oxygen plasma irradiation of platinum for improved spin hall effect [Published]
Citation
Kumar, S., Manna, S., Mohan, J. R., Shashank, U., Vas, J. V., Mishra, M., Gupta, S., Asada, H., Fukuma, Y., Rawat, R. S., & Medwal, R. (2024). Pulsed hot dense oxygen plasma irradiation of platinum for improved spin hall effect. SPIN, 14(2), Article 2340024. https://doi.org/10.1142/s2010324723400246
Author
Kumar, Sachin
•
Manna, Sourabh
•
Mohan, John Rex
•
Shashank, Utkarsh
•
Vas, Joseph Vimal
•
Mishra, Mayank
•
Gupta, Surbhi
•
Asada, Hironori
•
Fukuma, Yasuhiro
•
Rawat, Rajdeep Singh 
•
Medwal, Rohit
Abstract
The impurity incorporation in host high spin-orbit coupling materials like platinum (Pt) has shown improved charge-to-spin conversion efficiency by modifying the up-spin and down-spin electrons trajectories via bending or skewing them in opposite directions. This enables efficient generation, manipulation, and transport of spin currents. In this study, we irradiated the Pt thin films with pulsed hot dense oxygen plasma in non-focus mode operation and analyzed the spin Hall angle of the oxygen plasma irradiated Pt films using spin torque ferromagnetic resonance (ST-FMR). Our results demonstrate a 2.4 times enhancement in the spin Hall angle after transient oxygen plasma treatment of Pt as compared to pristine Pt. This improvement might be because of the introduction of disorder and defects in the Pt lattice due to transient oxygen plasma processing, which enhanced the spin-orbit coupling and leads to more efficient charge-to-spin conversion without breaking the spin-orbit torque symmetries. Our findings offer a new method of dense plasma focus device-based modification of material for the development of advanced spintronic devices based on Pt and other heavy metals.
Keywords
  • Dense plasma focus (D...

  • Spin Hall effect (SHE...

  • Spin torque ferromagn...

Date Issued
2024
Publisher
World Scientific
Journal
SPIN
DOI
10.1142/S2010324723400246
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