Ion-irradiation-induced direct ordering of L1(0) FePt phase. Lai, C. H, Yang, C. H, & Chiang, C. C Applied Physics Letters, 83(22):4550–4552, 2003.
abstract   bibtex   
A highly ordered L1(0) FePt phase was directly achieved by using 2 MeV He-ion irradiation without conventional postannealing. The coercivity greater than 5700 Oe can be obtained after disordered FePt was irradiated at the beam current of several muA/cm(2) with the ion doses of 2.4x10(16) ions/cm(2). The high beam-current-density results in direct beam heating on samples. In addition, the irradiation-induced heating process provides efficient microscopic energy transfer and creates excess point defects, which significantly enhances the diffusion and promotes the formation of the ordered phase. Consequently, the direct ordering of FePt took place by using ion-irradiation heating at temperature as low as 230 degreesC. Due to the feasibilities of the fast temperature rise and the focused beam size, this ion-irradiation heating treatment can be potentially used as an alternative technique for the rapid thermal annealing and for the magnetic patterning. (C) 2003 American Institute of Physics.
@article{lai_ion-irradiation-induced_2003,
	title = {Ion-irradiation-induced direct ordering of {L1}(0) {FePt} phase},
	volume = {83},
	abstract = {A highly ordered L1(0) FePt phase was directly achieved by using 2 MeV He-ion irradiation without conventional postannealing. The coercivity greater than 5700 Oe can be obtained after disordered FePt was irradiated at the beam current of several muA/cm(2) with the ion doses of 2.4x10(16) ions/cm(2). The high beam-current-density results in direct beam heating on samples. In addition, the irradiation-induced heating process provides efficient microscopic energy transfer and creates excess point defects, which significantly enhances the diffusion and promotes the formation of the ordered phase. Consequently, the direct ordering of FePt took place by using ion-irradiation heating at temperature as low as 230 degreesC. Due to the feasibilities of the fast temperature rise and the focused beam size, this ion-irradiation heating treatment can be potentially used as an alternative technique for the rapid thermal annealing and for the magnetic patterning. (C) 2003 American Institute of Physics.},
	number = {22},
	journal = {Applied Physics Letters},
	author = {Lai, C. H and Yang, C. H and Chiang, C. C},
	year = {2003},
	pages = {4550--4552},
}

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