Impact of Fe film thickness and Si(B) substrate on spin current and shunting effects in longitudinal spin Seebeck effect studies

dc.contributor.authorBenjarong Samransuksamer
dc.contributor.authorPoramed Wongjom
dc.contributor.authorTheeranuch Nachaithong
dc.contributor.authorEkkarat Pongophas
dc.contributor.authorWasan Maiaugree
dc.contributor.authorKhwanchai Tantiwanichapan
dc.contributor.authorJia Yi Chia
dc.contributor.authorChanunthorn Chananonnawathorn
dc.contributor.authorSupree Pinitsoontorn
dc.contributor.authorHarihara Ramamoorthy
dc.contributor.authorRatchanok Somphonsane
dc.contributor.authorPruet Kalasuwan
dc.contributor.authorMati Horprathum
dc.date.accessioned2026-05-08T19:21:30Z
dc.date.issued2025-7-2
dc.description.abstractAbstract This work investigates the longitudinal spin Seebeck effect (LSSE) in ferromagnetic Fe/Pt bilayer systems, examining the role of Fe layer thickness and substrate type on spin current dynamics and signal characteristics. Thin Fe films (3–20 nm) were sputtered onto Si/SiO 2 and Si(B) substrates and analyzed for their structural, magnetic, and spin transport behaviors. The study identifies an optimal Fe thickness below 5 nm for effective spin injection, corresponding to a spin diffusion length of 4.7 nm, a spin Hall angle of 0.094, and a spin injection coefficient of −1.6 V (K·Ω·m) –1 . Beyond 15 nm, the LSSE signal reverses due to dominant shunting effects. Substrate interactions significantly affect spin scattering, particularly at the Fe/Si(B) interface, where an insulating layer is necessary to stabilize magnetic and spin properties. These results provide insights into optimizing ferromagnetic metal-based LSSE systems for advanced spintronic applications.
dc.identifier.doi10.1088/1361-6463/adeaba
dc.identifier.urihttps://dspace.kmitl.ac.th/handle/123456789/18080
dc.publisherJournal of Physics D Applied Physics
dc.subjectMagnetic properties of thin films
dc.subjectMagnetic Properties and Applications
dc.subjectMagnetic Properties and Synthesis of Ferrites
dc.titleImpact of Fe film thickness and Si(B) substrate on spin current and shunting effects in longitudinal spin Seebeck effect studies
dc.typeArticle

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