Effects of post-deposition annealing on the structure and magnetization of PLD grown Yttrium Iron Garnet films
Ravinder Kumar, Z. Hossain, R. C. Budhani

TL;DR
This study investigates how post-deposition annealing affects the structure and magnetic properties of PLD-grown Yttrium Iron Garnet films, revealing epitaxial recrystallization and stress variations that influence magnetization.
Contribution
It demonstrates that annealing at 800°C can recrystallize and improve the epitaxial quality of YIG films, with detailed analysis of stress and magnetic properties based on annealing conditions.
Findings
Epitaxial conversion occurs after annealing at 800°C for over 30 minutes.
Oxygen annealed samples exhibit saturation magnetization comparable to bulk.
Air annealed samples develop a double layer with different stress states.
Abstract
We report on the recrystallization of 200 nm thick as-grown Yttrium Iron Garnet (Y_3.4 Fe_4.6 O_12) films on (111) face of Gadolinium Gallium Garnet (GGG) single crystals by post-deposition annealing. Epitaxial conversion of the as-grown microcrystalline YIG films was seen after annealing at 800oC for more than 30 minutes both in ambient oxygen as well as in air. The as-grown oxygen annealed samples at 800oC for 60 minutes crystallize epitaxially and show excellent figure-of-merit for saturation magnetization (MS = 3.3 {\mu}B/f.u., comparable to bulk value) and coercivity (HC ~ 1.1 Oe). The ambient air annealing at 800oC with a very slow rate of cooling (2oC/min) results in a double layer structure with a thicker unstrained epitaxial top layer having the MS and HC of 2.9 {\mu}B/f.u. and 0.12 Oe respectively. The symmetric and asymmetric Reciprocal space maps of both the samples reveal a…
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