Dynamic stress-induced low-temperature ordering of FePt
Applied Physics Letters, ISSN: 0003-6951, Vol: 85, Issue: 19, Page: 4430-4432
2004
- 69Citations
- 14Captures
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Conference Paper Description
The ordering temperature of FePt was significantly reduced to 275°C by introducing a Cu underlayer on the HF-cleaned Si(001) substrate. A coercivity H as high as 6200 Oe can be achieved after postannealing at 275°C, and H can be further increased to 7000 Oe after 300 °C postannealing. During the formation of copper suicide CuSi, the expanded volume induces a dynamic in-plane tensile stress on FePt films, which accelerates the formation of the ordered FePt phase at low temperature. Different from the static stress induced by the lattice mismatch between films and underlayers. the dynamic stress is relaxed after the formation of Cu Si is completed; therefore, the low-temperature ordering of FePt mainly takes place simultaneously with the evolution of dynamic stress during the formation of CuSi. The coercivity of FePt depends on the amount of CuSi and on the stress developed by CuSi. © 2004 American Institute of Physics.
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